/******************** * * Copyright (c) ViewAR * ********************/ /******/ (function(modules) { // webpackBootstrap /******/ // install a JSONP callback for chunk loading /******/ var parentJsonpFunction = window["webpackJsonp"]; /******/ window["webpackJsonp"] = function webpackJsonpCallback(chunkIds, moreModules) { /******/ // add "moreModules" to the modules object, /******/ // then flag all "chunkIds" as loaded and fire callback /******/ var moduleId, chunkId, i = 0, callbacks = []; /******/ for(;i < chunkIds.length; i++) { /******/ chunkId = chunkIds[i]; /******/ if(installedChunks[chunkId]) /******/ callbacks.push.apply(callbacks, installedChunks[chunkId]); /******/ installedChunks[chunkId] = 0; /******/ } /******/ for(moduleId in moreModules) { /******/ modules[moduleId] = moreModules[moduleId]; /******/ } /******/ if(parentJsonpFunction) parentJsonpFunction(chunkIds, moreModules); /******/ while(callbacks.length) /******/ callbacks.shift().call(null, __webpack_require__); /******/ if(moreModules[0]) { /******/ installedModules[0] = 0; /******/ return __webpack_require__(0); /******/ } /******/ }; /******/ // The module cache /******/ var installedModules = {}; /******/ // object to store loaded and loading chunks /******/ // "0" means "already loaded" /******/ // Array means "loading", array contains callbacks /******/ var installedChunks = { /******/ 1:0 /******/ }; /******/ // The require function /******/ function __webpack_require__(moduleId) { /******/ // Check if module is in cache /******/ if(installedModules[moduleId]) /******/ return installedModules[moduleId].exports; /******/ // Create a new module (and put it into the cache) /******/ var module = installedModules[moduleId] = { /******/ exports: {}, /******/ id: moduleId, /******/ loaded: false /******/ }; /******/ // Execute the module function /******/ modules[moduleId].call(module.exports, module, module.exports, __webpack_require__); /******/ // Flag the module as loaded /******/ module.loaded = true; /******/ // Return the exports of the module /******/ return module.exports; /******/ } /******/ // This file contains only the entry chunk. /******/ // The chunk loading function for additional chunks /******/ __webpack_require__.e = function requireEnsure(chunkId, callback) { /******/ // "0" is the signal for "already loaded" /******/ if(installedChunks[chunkId] === 0) /******/ return callback.call(null, __webpack_require__); /******/ // an array means "currently loading". /******/ if(installedChunks[chunkId] !== undefined) { /******/ installedChunks[chunkId].push(callback); /******/ } else { /******/ // start chunk loading /******/ installedChunks[chunkId] = [callback]; /******/ var head = document.getElementsByTagName('head')[0]; /******/ var script = document.createElement('script'); /******/ script.type = 'text/javascript'; /******/ script.charset = 'utf-8'; /******/ script.async = true; /******/ script.src = __webpack_require__.p + "" + chunkId + "." + ({"0":"index"}[chunkId]||chunkId) + ".js"; /******/ head.appendChild(script); /******/ } /******/ }; /******/ // expose the modules object (__webpack_modules__) /******/ __webpack_require__.m = modules; /******/ // expose the module cache /******/ __webpack_require__.c = installedModules; /******/ // __webpack_public_path__ /******/ __webpack_require__.p = ""; /******/ // Load entry module and return exports /******/ return __webpack_require__(0); /******/ }) /************************************************************************/ /******/ ([ /* 0 */ /***/ function(module, exports, __webpack_require__) { __webpack_require__(73); __webpack_require__(370); __webpack_require__(372); __webpack_require__(377); __webpack_require__(375); __webpack_require__(373); __webpack_require__(380); module.exports = __webpack_require__(390); /***/ }, /* 1 */ /***/ function(module, exports, __webpack_require__) { /* WEBPACK VAR INJECTION */(function(process, Promise, global, setImmediate) {/* @preserve * The MIT License (MIT) * * Copyright (c) 2013-2015 Petka Antonov * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. * */ /** * bluebird build version 3.3.5 * Features enabled: core, race, call_get, generators, map, nodeify, promisify, props, reduce, settle, some, using, timers, filter, any, each */ !function(e){if(true)module.exports=e();else if("function"==typeof define&&define.amd)define([],e);else{var f;"undefined"!=typeof window?f=window:"undefined"!=typeof global?f=global:"undefined"!=typeof self&&(f=self),f.Promise=e()}}(function(){var define,module,exports;return (function e(t,n,r){function s(o,u){if(!n[o]){if(!t[o]){var a=typeof _dereq_=="function"&&_dereq_;if(!u&&a)return a(o,!0);if(i)return i(o,!0);var f=new Error("Cannot find module '"+o+"'");throw f.code="MODULE_NOT_FOUND",f}var l=n[o]={exports:{}};t[o][0].call(l.exports,function(e){var n=t[o][1][e];return s(n?n:e)},l,l.exports,e,t,n,r)}return n[o].exports}var i=typeof _dereq_=="function"&&_dereq_;for(var o=0;o 0) { var fn = queue.shift(); if (typeof fn !== "function") { fn._settlePromises(); continue; } var receiver = queue.shift(); var arg = queue.shift(); fn.call(receiver, arg); } }; Async.prototype._drainQueues = function () { this._drainQueue(this._normalQueue); this._reset(); this._haveDrainedQueues = true; this._drainQueue(this._lateQueue); }; Async.prototype._queueTick = function () { if (!this._isTickUsed) { this._isTickUsed = true; this._schedule(this.drainQueues); } }; Async.prototype._reset = function () { this._isTickUsed = false; }; module.exports = Async; module.exports.firstLineError = firstLineError; },{"./queue":26,"./schedule":29,"./util":36}],3:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL, tryConvertToPromise, debug) { var calledBind = false; var rejectThis = function(_, e) { this._reject(e); }; var targetRejected = function(e, context) { context.promiseRejectionQueued = true; context.bindingPromise._then(rejectThis, rejectThis, null, this, e); }; var bindingResolved = function(thisArg, context) { if (((this._bitField & 50397184) === 0)) { this._resolveCallback(context.target); } }; var bindingRejected = function(e, context) { if (!context.promiseRejectionQueued) this._reject(e); }; Promise.prototype.bind = function (thisArg) { if (!calledBind) { calledBind = true; Promise.prototype._propagateFrom = debug.propagateFromFunction(); Promise.prototype._boundValue = debug.boundValueFunction(); } var maybePromise = tryConvertToPromise(thisArg); var ret = new Promise(INTERNAL); ret._propagateFrom(this, 1); var target = this._target(); ret._setBoundTo(maybePromise); if (maybePromise instanceof Promise) { var context = { promiseRejectionQueued: false, promise: ret, target: target, bindingPromise: maybePromise }; target._then(INTERNAL, targetRejected, undefined, ret, context); maybePromise._then( bindingResolved, bindingRejected, undefined, ret, context); ret._setOnCancel(maybePromise); } else { ret._resolveCallback(target); } return ret; }; Promise.prototype._setBoundTo = function (obj) { if (obj !== undefined) { this._bitField = this._bitField | 2097152; this._boundTo = obj; } else { this._bitField = this._bitField & (~2097152); } }; Promise.prototype._isBound = function () { return (this._bitField & 2097152) === 2097152; }; Promise.bind = function (thisArg, value) { return Promise.resolve(value).bind(thisArg); }; }; },{}],4:[function(_dereq_,module,exports){ "use strict"; var old; if (typeof Promise !== "undefined") old = Promise; function noConflict() { try { if (Promise === bluebird) Promise = old; } catch (e) {} return bluebird; } var bluebird = _dereq_("./promise")(); bluebird.noConflict = noConflict; module.exports = bluebird; },{"./promise":22}],5:[function(_dereq_,module,exports){ "use strict"; var cr = Object.create; if (cr) { var callerCache = cr(null); var getterCache = cr(null); callerCache[" size"] = getterCache[" size"] = 0; } module.exports = function(Promise) { var util = _dereq_("./util"); var canEvaluate = util.canEvaluate; var isIdentifier = util.isIdentifier; var getMethodCaller; var getGetter; if (false) { var makeMethodCaller = function (methodName) { return new Function("ensureMethod", " \n\ return function(obj) { \n\ 'use strict' \n\ var len = this.length; \n\ ensureMethod(obj, 'methodName'); \n\ switch(len) { \n\ case 1: return obj.methodName(this[0]); \n\ case 2: return obj.methodName(this[0], this[1]); \n\ case 3: return obj.methodName(this[0], this[1], this[2]); \n\ case 0: return obj.methodName(); \n\ default: \n\ return obj.methodName.apply(obj, this); \n\ } \n\ }; \n\ ".replace(/methodName/g, methodName))(ensureMethod); }; var makeGetter = function (propertyName) { return new Function("obj", " \n\ 'use strict'; \n\ return obj.propertyName; \n\ ".replace("propertyName", propertyName)); }; var getCompiled = function(name, compiler, cache) { var ret = cache[name]; if (typeof ret !== "function") { if (!isIdentifier(name)) { return null; } ret = compiler(name); cache[name] = ret; cache[" size"]++; if (cache[" size"] > 512) { var keys = Object.keys(cache); for (var i = 0; i < 256; ++i) delete cache[keys[i]]; cache[" size"] = keys.length - 256; } } return ret; }; getMethodCaller = function(name) { return getCompiled(name, makeMethodCaller, callerCache); }; getGetter = function(name) { return getCompiled(name, makeGetter, getterCache); }; } function ensureMethod(obj, methodName) { var fn; if (obj != null) fn = obj[methodName]; if (typeof fn !== "function") { var message = "Object " + util.classString(obj) + " has no method '" + util.toString(methodName) + "'"; throw new Promise.TypeError(message); } return fn; } function caller(obj) { var methodName = this.pop(); var fn = ensureMethod(obj, methodName); return fn.apply(obj, this); } Promise.prototype.call = function (methodName) { var args = [].slice.call(arguments, 1);; if (false) { if (canEvaluate) { var maybeCaller = getMethodCaller(methodName); if (maybeCaller !== null) { return this._then( maybeCaller, undefined, undefined, args, undefined); } } } args.push(methodName); return this._then(caller, undefined, undefined, args, undefined); }; function namedGetter(obj) { return obj[this]; } function indexedGetter(obj) { var index = +this; if (index < 0) index = Math.max(0, index + obj.length); return obj[index]; } Promise.prototype.get = function (propertyName) { var isIndex = (typeof propertyName === "number"); var getter; if (!isIndex) { if (canEvaluate) { var maybeGetter = getGetter(propertyName); getter = maybeGetter !== null ? maybeGetter : namedGetter; } else { getter = namedGetter; } } else { getter = indexedGetter; } return this._then(getter, undefined, undefined, propertyName, undefined); }; }; },{"./util":36}],6:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, PromiseArray, apiRejection, debug) { var util = _dereq_("./util"); var tryCatch = util.tryCatch; var errorObj = util.errorObj; var async = Promise._async; Promise.prototype["break"] = Promise.prototype.cancel = function() { if (!debug.cancellation()) return this._warn("cancellation is disabled"); var promise = this; var child = promise; while (promise.isCancellable()) { if (!promise._cancelBy(child)) { if (child._isFollowing()) { child._followee().cancel(); } else { child._cancelBranched(); } break; } var parent = promise._cancellationParent; if (parent == null || !parent.isCancellable()) { if (promise._isFollowing()) { promise._followee().cancel(); } else { promise._cancelBranched(); } break; } else { if (promise._isFollowing()) promise._followee().cancel(); child = promise; promise = parent; } } }; Promise.prototype._branchHasCancelled = function() { this._branchesRemainingToCancel--; }; Promise.prototype._enoughBranchesHaveCancelled = function() { return this._branchesRemainingToCancel === undefined || this._branchesRemainingToCancel <= 0; }; Promise.prototype._cancelBy = function(canceller) { if (canceller === this) { this._branchesRemainingToCancel = 0; this._invokeOnCancel(); return true; } else { this._branchHasCancelled(); if (this._enoughBranchesHaveCancelled()) { this._invokeOnCancel(); return true; } } return false; }; Promise.prototype._cancelBranched = function() { if (this._enoughBranchesHaveCancelled()) { this._cancel(); } }; Promise.prototype._cancel = function() { if (!this.isCancellable()) return; this._setCancelled(); async.invoke(this._cancelPromises, this, undefined); }; Promise.prototype._cancelPromises = function() { if (this._length() > 0) this._settlePromises(); }; Promise.prototype._unsetOnCancel = function() { this._onCancelField = undefined; }; Promise.prototype.isCancellable = function() { return this.isPending() && !this.isCancelled(); }; Promise.prototype._doInvokeOnCancel = function(onCancelCallback, internalOnly) { if (util.isArray(onCancelCallback)) { for (var i = 0; i < onCancelCallback.length; ++i) { this._doInvokeOnCancel(onCancelCallback[i], internalOnly); } } else if (onCancelCallback !== undefined) { if (typeof onCancelCallback === "function") { if (!internalOnly) { var e = tryCatch(onCancelCallback).call(this._boundValue()); if (e === errorObj) { this._attachExtraTrace(e.e); async.throwLater(e.e); } } } else { onCancelCallback._resultCancelled(this); } } }; Promise.prototype._invokeOnCancel = function() { var onCancelCallback = this._onCancel(); this._unsetOnCancel(); async.invoke(this._doInvokeOnCancel, this, onCancelCallback); }; Promise.prototype._invokeInternalOnCancel = function() { if (this.isCancellable()) { this._doInvokeOnCancel(this._onCancel(), true); this._unsetOnCancel(); } }; Promise.prototype._resultCancelled = function() { this.cancel(); }; }; },{"./util":36}],7:[function(_dereq_,module,exports){ "use strict"; module.exports = function(NEXT_FILTER) { var util = _dereq_("./util"); var getKeys = _dereq_("./es5").keys; var tryCatch = util.tryCatch; var errorObj = util.errorObj; function catchFilter(instances, cb, promise) { return function(e) { var boundTo = promise._boundValue(); predicateLoop: for (var i = 0; i < instances.length; ++i) { var item = instances[i]; if (item === Error || (item != null && item.prototype instanceof Error)) { if (e instanceof item) { return tryCatch(cb).call(boundTo, e); } } else if (typeof item === "function") { var matchesPredicate = tryCatch(item).call(boundTo, e); if (matchesPredicate === errorObj) { return matchesPredicate; } else if (matchesPredicate) { return tryCatch(cb).call(boundTo, e); } } else if (util.isObject(e)) { var keys = getKeys(item); for (var j = 0; j < keys.length; ++j) { var key = keys[j]; if (item[key] != e[key]) { continue predicateLoop; } } return tryCatch(cb).call(boundTo, e); } } return NEXT_FILTER; }; } return catchFilter; }; },{"./es5":13,"./util":36}],8:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise) { var longStackTraces = false; var contextStack = []; Promise.prototype._promiseCreated = function() {}; Promise.prototype._pushContext = function() {}; Promise.prototype._popContext = function() {return null;}; Promise._peekContext = Promise.prototype._peekContext = function() {}; function Context() { this._trace = new Context.CapturedTrace(peekContext()); } Context.prototype._pushContext = function () { if (this._trace !== undefined) { this._trace._promiseCreated = null; contextStack.push(this._trace); } }; Context.prototype._popContext = function () { if (this._trace !== undefined) { var trace = contextStack.pop(); var ret = trace._promiseCreated; trace._promiseCreated = null; return ret; } return null; }; function createContext() { if (longStackTraces) return new Context(); } function peekContext() { var lastIndex = contextStack.length - 1; if (lastIndex >= 0) { return contextStack[lastIndex]; } return undefined; } Context.CapturedTrace = null; Context.create = createContext; Context.deactivateLongStackTraces = function() {}; Context.activateLongStackTraces = function() { var Promise_pushContext = Promise.prototype._pushContext; var Promise_popContext = Promise.prototype._popContext; var Promise_PeekContext = Promise._peekContext; var Promise_peekContext = Promise.prototype._peekContext; var Promise_promiseCreated = Promise.prototype._promiseCreated; Context.deactivateLongStackTraces = function() { Promise.prototype._pushContext = Promise_pushContext; Promise.prototype._popContext = Promise_popContext; Promise._peekContext = Promise_PeekContext; Promise.prototype._peekContext = Promise_peekContext; Promise.prototype._promiseCreated = Promise_promiseCreated; longStackTraces = false; }; longStackTraces = true; Promise.prototype._pushContext = Context.prototype._pushContext; Promise.prototype._popContext = Context.prototype._popContext; Promise._peekContext = Promise.prototype._peekContext = peekContext; Promise.prototype._promiseCreated = function() { var ctx = this._peekContext(); if (ctx && ctx._promiseCreated == null) ctx._promiseCreated = this; }; }; return Context; }; },{}],9:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, Context) { var getDomain = Promise._getDomain; var async = Promise._async; var Warning = _dereq_("./errors").Warning; var util = _dereq_("./util"); var canAttachTrace = util.canAttachTrace; var unhandledRejectionHandled; var possiblyUnhandledRejection; var bluebirdFramePattern = /[\\\/]bluebird[\\\/]js[\\\/](release|debug|instrumented)/; var stackFramePattern = null; var formatStack = null; var indentStackFrames = false; var printWarning; var debugging = !!(util.env("BLUEBIRD_DEBUG") != 0 && (true || util.env("BLUEBIRD_DEBUG") || util.env("NODE_ENV") === "development")); var warnings = !!(util.env("BLUEBIRD_WARNINGS") != 0 && (debugging || util.env("BLUEBIRD_WARNINGS"))); var longStackTraces = !!(util.env("BLUEBIRD_LONG_STACK_TRACES") != 0 && (debugging || util.env("BLUEBIRD_LONG_STACK_TRACES"))); var wForgottenReturn = util.env("BLUEBIRD_W_FORGOTTEN_RETURN") != 0 && (warnings || !!util.env("BLUEBIRD_W_FORGOTTEN_RETURN")); Promise.prototype.suppressUnhandledRejections = function() { var target = this._target(); target._bitField = ((target._bitField & (~1048576)) | 524288); }; Promise.prototype._ensurePossibleRejectionHandled = function () { if ((this._bitField & 524288) !== 0) return; this._setRejectionIsUnhandled(); async.invokeLater(this._notifyUnhandledRejection, this, undefined); }; Promise.prototype._notifyUnhandledRejectionIsHandled = function () { fireRejectionEvent("rejectionHandled", unhandledRejectionHandled, undefined, this); }; Promise.prototype._setReturnedNonUndefined = function() { this._bitField = this._bitField | 268435456; }; Promise.prototype._returnedNonUndefined = function() { return (this._bitField & 268435456) !== 0; }; Promise.prototype._notifyUnhandledRejection = function () { if (this._isRejectionUnhandled()) { var reason = this._settledValue(); this._setUnhandledRejectionIsNotified(); fireRejectionEvent("unhandledRejection", possiblyUnhandledRejection, reason, this); } }; Promise.prototype._setUnhandledRejectionIsNotified = function () { this._bitField = this._bitField | 262144; }; Promise.prototype._unsetUnhandledRejectionIsNotified = function () { this._bitField = this._bitField & (~262144); }; Promise.prototype._isUnhandledRejectionNotified = function () { return (this._bitField & 262144) > 0; }; Promise.prototype._setRejectionIsUnhandled = function () { this._bitField = this._bitField | 1048576; }; Promise.prototype._unsetRejectionIsUnhandled = function () { this._bitField = this._bitField & (~1048576); if (this._isUnhandledRejectionNotified()) { this._unsetUnhandledRejectionIsNotified(); this._notifyUnhandledRejectionIsHandled(); } }; Promise.prototype._isRejectionUnhandled = function () { return (this._bitField & 1048576) > 0; }; Promise.prototype._warn = function(message, shouldUseOwnTrace, promise) { return warn(message, shouldUseOwnTrace, promise || this); }; Promise.onPossiblyUnhandledRejection = function (fn) { var domain = getDomain(); possiblyUnhandledRejection = typeof fn === "function" ? (domain === null ? fn : domain.bind(fn)) : undefined; }; Promise.onUnhandledRejectionHandled = function (fn) { var domain = getDomain(); unhandledRejectionHandled = typeof fn === "function" ? (domain === null ? fn : domain.bind(fn)) : undefined; }; var disableLongStackTraces = function() {}; Promise.longStackTraces = function () { if (async.haveItemsQueued() && !config.longStackTraces) { throw new Error("cannot enable long stack traces after promises have been created\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } if (!config.longStackTraces && longStackTracesIsSupported()) { var Promise_captureStackTrace = Promise.prototype._captureStackTrace; var Promise_attachExtraTrace = Promise.prototype._attachExtraTrace; config.longStackTraces = true; disableLongStackTraces = function() { if (async.haveItemsQueued() && !config.longStackTraces) { throw new Error("cannot enable long stack traces after promises have been created\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } Promise.prototype._captureStackTrace = Promise_captureStackTrace; Promise.prototype._attachExtraTrace = Promise_attachExtraTrace; Context.deactivateLongStackTraces(); async.enableTrampoline(); config.longStackTraces = false; }; Promise.prototype._captureStackTrace = longStackTracesCaptureStackTrace; Promise.prototype._attachExtraTrace = longStackTracesAttachExtraTrace; Context.activateLongStackTraces(); async.disableTrampolineIfNecessary(); } }; Promise.hasLongStackTraces = function () { return config.longStackTraces && longStackTracesIsSupported(); }; var fireDomEvent = (function() { try { var event = document.createEvent("CustomEvent"); event.initCustomEvent("testingtheevent", false, true, {}); util.global.dispatchEvent(event); return function(name, event) { var domEvent = document.createEvent("CustomEvent"); domEvent.initCustomEvent(name.toLowerCase(), false, true, event); return !util.global.dispatchEvent(domEvent); }; } catch (e) {} return function() { return false; }; })(); var fireGlobalEvent = (function() { if (util.isNode) { return function() { return process.emit.apply(process, arguments); }; } else { if (!util.global) { return function() { return false; }; } return function(name) { var methodName = "on" + name.toLowerCase(); var method = util.global[methodName]; if (!method) return false; method.apply(util.global, [].slice.call(arguments, 1)); return true; }; } })(); function generatePromiseLifecycleEventObject(name, promise) { return {promise: promise}; } var eventToObjectGenerator = { promiseCreated: generatePromiseLifecycleEventObject, promiseFulfilled: generatePromiseLifecycleEventObject, promiseRejected: generatePromiseLifecycleEventObject, promiseResolved: generatePromiseLifecycleEventObject, promiseCancelled: generatePromiseLifecycleEventObject, promiseChained: function(name, promise, child) { return {promise: promise, child: child}; }, warning: function(name, warning) { return {warning: warning}; }, unhandledRejection: function (name, reason, promise) { return {reason: reason, promise: promise}; }, rejectionHandled: generatePromiseLifecycleEventObject }; var activeFireEvent = function (name) { var globalEventFired = false; try { globalEventFired = fireGlobalEvent.apply(null, arguments); } catch (e) { async.throwLater(e); globalEventFired = true; } var domEventFired = false; try { domEventFired = fireDomEvent(name, eventToObjectGenerator[name].apply(null, arguments)); } catch (e) { async.throwLater(e); domEventFired = true; } return domEventFired || globalEventFired; }; Promise.config = function(opts) { opts = Object(opts); if ("longStackTraces" in opts) { if (opts.longStackTraces) { Promise.longStackTraces(); } else if (!opts.longStackTraces && Promise.hasLongStackTraces()) { disableLongStackTraces(); } } if ("warnings" in opts) { var warningsOption = opts.warnings; config.warnings = !!warningsOption; wForgottenReturn = config.warnings; if (util.isObject(warningsOption)) { if ("wForgottenReturn" in warningsOption) { wForgottenReturn = !!warningsOption.wForgottenReturn; } } } if ("cancellation" in opts && opts.cancellation && !config.cancellation) { if (async.haveItemsQueued()) { throw new Error( "cannot enable cancellation after promises are in use"); } Promise.prototype._clearCancellationData = cancellationClearCancellationData; Promise.prototype._propagateFrom = cancellationPropagateFrom; Promise.prototype._onCancel = cancellationOnCancel; Promise.prototype._setOnCancel = cancellationSetOnCancel; Promise.prototype._attachCancellationCallback = cancellationAttachCancellationCallback; Promise.prototype._execute = cancellationExecute; propagateFromFunction = cancellationPropagateFrom; config.cancellation = true; } if ("monitoring" in opts) { if (opts.monitoring && !config.monitoring) { config.monitoring = true; Promise.prototype._fireEvent = activeFireEvent; } else if (!opts.monitoring && config.monitoring) { config.monitoring = false; Promise.prototype._fireEvent = defaultFireEvent; } } }; function defaultFireEvent() { return false; } Promise.prototype._fireEvent = defaultFireEvent; Promise.prototype._execute = function(executor, resolve, reject) { try { executor(resolve, reject); } catch (e) { return e; } }; Promise.prototype._onCancel = function () {}; Promise.prototype._setOnCancel = function (handler) { ; }; Promise.prototype._attachCancellationCallback = function(onCancel) { ; }; Promise.prototype._captureStackTrace = function () {}; Promise.prototype._attachExtraTrace = function () {}; Promise.prototype._clearCancellationData = function() {}; Promise.prototype._propagateFrom = function (parent, flags) { ; ; }; function cancellationExecute(executor, resolve, reject) { var promise = this; try { executor(resolve, reject, function(onCancel) { if (typeof onCancel !== "function") { throw new TypeError("onCancel must be a function, got: " + util.toString(onCancel)); } promise._attachCancellationCallback(onCancel); }); } catch (e) { return e; } } function cancellationAttachCancellationCallback(onCancel) { if (!this.isCancellable()) return this; var previousOnCancel = this._onCancel(); if (previousOnCancel !== undefined) { if (util.isArray(previousOnCancel)) { previousOnCancel.push(onCancel); } else { this._setOnCancel([previousOnCancel, onCancel]); } } else { this._setOnCancel(onCancel); } } function cancellationOnCancel() { return this._onCancelField; } function cancellationSetOnCancel(onCancel) { this._onCancelField = onCancel; } function cancellationClearCancellationData() { this._cancellationParent = undefined; this._onCancelField = undefined; } function cancellationPropagateFrom(parent, flags) { if ((flags & 1) !== 0) { this._cancellationParent = parent; var branchesRemainingToCancel = parent._branchesRemainingToCancel; if (branchesRemainingToCancel === undefined) { branchesRemainingToCancel = 0; } parent._branchesRemainingToCancel = branchesRemainingToCancel + 1; } if ((flags & 2) !== 0 && parent._isBound()) { this._setBoundTo(parent._boundTo); } } function bindingPropagateFrom(parent, flags) { if ((flags & 2) !== 0 && parent._isBound()) { this._setBoundTo(parent._boundTo); } } var propagateFromFunction = bindingPropagateFrom; function boundValueFunction() { var ret = this._boundTo; if (ret !== undefined) { if (ret instanceof Promise) { if (ret.isFulfilled()) { return ret.value(); } else { return undefined; } } } return ret; } function longStackTracesCaptureStackTrace() { this._trace = new CapturedTrace(this._peekContext()); } function longStackTracesAttachExtraTrace(error, ignoreSelf) { if (canAttachTrace(error)) { var trace = this._trace; if (trace !== undefined) { if (ignoreSelf) trace = trace._parent; } if (trace !== undefined) { trace.attachExtraTrace(error); } else if (!error.__stackCleaned__) { var parsed = parseStackAndMessage(error); util.notEnumerableProp(error, "stack", parsed.message + "\n" + parsed.stack.join("\n")); util.notEnumerableProp(error, "__stackCleaned__", true); } } } function checkForgottenReturns(returnValue, promiseCreated, name, promise, parent) { if (returnValue === undefined && promiseCreated !== null && wForgottenReturn) { if (parent !== undefined && parent._returnedNonUndefined()) return; if ((promise._bitField & 65535) === 0) return; if (name) name = name + " "; var msg = "a promise was created in a " + name + "handler but was not returned from it"; promise._warn(msg, true, promiseCreated); } } function deprecated(name, replacement) { var message = name + " is deprecated and will be removed in a future version."; if (replacement) message += " Use " + replacement + " instead."; return warn(message); } function warn(message, shouldUseOwnTrace, promise) { if (!config.warnings) return; var warning = new Warning(message); var ctx; if (shouldUseOwnTrace) { promise._attachExtraTrace(warning); } else if (config.longStackTraces && (ctx = Promise._peekContext())) { ctx.attachExtraTrace(warning); } else { var parsed = parseStackAndMessage(warning); warning.stack = parsed.message + "\n" + parsed.stack.join("\n"); } if (!activeFireEvent("warning", warning)) { formatAndLogError(warning, "", true); } } function reconstructStack(message, stacks) { for (var i = 0; i < stacks.length - 1; ++i) { stacks[i].push("From previous event:"); stacks[i] = stacks[i].join("\n"); } if (i < stacks.length) { stacks[i] = stacks[i].join("\n"); } return message + "\n" + stacks.join("\n"); } function removeDuplicateOrEmptyJumps(stacks) { for (var i = 0; i < stacks.length; ++i) { if (stacks[i].length === 0 || ((i + 1 < stacks.length) && stacks[i][0] === stacks[i+1][0])) { stacks.splice(i, 1); i--; } } } function removeCommonRoots(stacks) { var current = stacks[0]; for (var i = 1; i < stacks.length; ++i) { var prev = stacks[i]; var currentLastIndex = current.length - 1; var currentLastLine = current[currentLastIndex]; var commonRootMeetPoint = -1; for (var j = prev.length - 1; j >= 0; --j) { if (prev[j] === currentLastLine) { commonRootMeetPoint = j; break; } } for (var j = commonRootMeetPoint; j >= 0; --j) { var line = prev[j]; if (current[currentLastIndex] === line) { current.pop(); currentLastIndex--; } else { break; } } current = prev; } } function cleanStack(stack) { var ret = []; for (var i = 0; i < stack.length; ++i) { var line = stack[i]; var isTraceLine = " (No stack trace)" === line || stackFramePattern.test(line); var isInternalFrame = isTraceLine && shouldIgnore(line); if (isTraceLine && !isInternalFrame) { if (indentStackFrames && line.charAt(0) !== " ") { line = " " + line; } ret.push(line); } } return ret; } function stackFramesAsArray(error) { var stack = error.stack.replace(/\s+$/g, "").split("\n"); for (var i = 0; i < stack.length; ++i) { var line = stack[i]; if (" (No stack trace)" === line || stackFramePattern.test(line)) { break; } } if (i > 0) { stack = stack.slice(i); } return stack; } function parseStackAndMessage(error) { var stack = error.stack; var message = error.toString(); stack = typeof stack === "string" && stack.length > 0 ? stackFramesAsArray(error) : [" (No stack trace)"]; return { message: message, stack: cleanStack(stack) }; } function formatAndLogError(error, title, isSoft) { if (typeof console !== "undefined") { var message; if (util.isObject(error)) { var stack = error.stack; message = title + formatStack(stack, error); } else { message = title + String(error); } if (typeof printWarning === "function") { printWarning(message, isSoft); } else if (typeof console.log === "function" || typeof console.log === "object") { console.log(message); } } } function fireRejectionEvent(name, localHandler, reason, promise) { var localEventFired = false; try { if (typeof localHandler === "function") { localEventFired = true; if (name === "rejectionHandled") { localHandler(promise); } else { localHandler(reason, promise); } } } catch (e) { async.throwLater(e); } if (name === "unhandledRejection") { if (!activeFireEvent(name, reason, promise) && !localEventFired) { formatAndLogError(reason, "Unhandled rejection "); } } else { activeFireEvent(name, promise); } } function formatNonError(obj) { var str; if (typeof obj === "function") { str = "[function " + (obj.name || "anonymous") + "]"; } else { str = obj && typeof obj.toString === "function" ? obj.toString() : util.toString(obj); var ruselessToString = /\[object [a-zA-Z0-9$_]+\]/; if (ruselessToString.test(str)) { try { var newStr = JSON.stringify(obj); str = newStr; } catch(e) { } } if (str.length === 0) { str = "(empty array)"; } } return ("(<" + snip(str) + ">, no stack trace)"); } function snip(str) { var maxChars = 41; if (str.length < maxChars) { return str; } return str.substr(0, maxChars - 3) + "..."; } function longStackTracesIsSupported() { return typeof captureStackTrace === "function"; } var shouldIgnore = function() { return false; }; var parseLineInfoRegex = /[\/<\(]([^:\/]+):(\d+):(?:\d+)\)?\s*$/; function parseLineInfo(line) { var matches = line.match(parseLineInfoRegex); if (matches) { return { fileName: matches[1], line: parseInt(matches[2], 10) }; } } function setBounds(firstLineError, lastLineError) { if (!longStackTracesIsSupported()) return; var firstStackLines = firstLineError.stack.split("\n"); var lastStackLines = lastLineError.stack.split("\n"); var firstIndex = -1; var lastIndex = -1; var firstFileName; var lastFileName; for (var i = 0; i < firstStackLines.length; ++i) { var result = parseLineInfo(firstStackLines[i]); if (result) { firstFileName = result.fileName; firstIndex = result.line; break; } } for (var i = 0; i < lastStackLines.length; ++i) { var result = parseLineInfo(lastStackLines[i]); if (result) { lastFileName = result.fileName; lastIndex = result.line; break; } } if (firstIndex < 0 || lastIndex < 0 || !firstFileName || !lastFileName || firstFileName !== lastFileName || firstIndex >= lastIndex) { return; } shouldIgnore = function(line) { if (bluebirdFramePattern.test(line)) return true; var info = parseLineInfo(line); if (info) { if (info.fileName === firstFileName && (firstIndex <= info.line && info.line <= lastIndex)) { return true; } } return false; }; } function CapturedTrace(parent) { this._parent = parent; this._promisesCreated = 0; var length = this._length = 1 + (parent === undefined ? 0 : parent._length); captureStackTrace(this, CapturedTrace); if (length > 32) this.uncycle(); } util.inherits(CapturedTrace, Error); Context.CapturedTrace = CapturedTrace; CapturedTrace.prototype.uncycle = function() { var length = this._length; if (length < 2) return; var nodes = []; var stackToIndex = {}; for (var i = 0, node = this; node !== undefined; ++i) { nodes.push(node); node = node._parent; } length = this._length = i; for (var i = length - 1; i >= 0; --i) { var stack = nodes[i].stack; if (stackToIndex[stack] === undefined) { stackToIndex[stack] = i; } } for (var i = 0; i < length; ++i) { var currentStack = nodes[i].stack; var index = stackToIndex[currentStack]; if (index !== undefined && index !== i) { if (index > 0) { nodes[index - 1]._parent = undefined; nodes[index - 1]._length = 1; } nodes[i]._parent = undefined; nodes[i]._length = 1; var cycleEdgeNode = i > 0 ? nodes[i - 1] : this; if (index < length - 1) { cycleEdgeNode._parent = nodes[index + 1]; cycleEdgeNode._parent.uncycle(); cycleEdgeNode._length = cycleEdgeNode._parent._length + 1; } else { cycleEdgeNode._parent = undefined; cycleEdgeNode._length = 1; } var currentChildLength = cycleEdgeNode._length + 1; for (var j = i - 2; j >= 0; --j) { nodes[j]._length = currentChildLength; currentChildLength++; } return; } } }; CapturedTrace.prototype.attachExtraTrace = function(error) { if (error.__stackCleaned__) return; this.uncycle(); var parsed = parseStackAndMessage(error); var message = parsed.message; var stacks = [parsed.stack]; var trace = this; while (trace !== undefined) { stacks.push(cleanStack(trace.stack.split("\n"))); trace = trace._parent; } removeCommonRoots(stacks); removeDuplicateOrEmptyJumps(stacks); util.notEnumerableProp(error, "stack", reconstructStack(message, stacks)); util.notEnumerableProp(error, "__stackCleaned__", true); }; var captureStackTrace = (function stackDetection() { var v8stackFramePattern = /^\s*at\s*/; var v8stackFormatter = function(stack, error) { if (typeof stack === "string") return stack; if (error.name !== undefined && error.message !== undefined) { return error.toString(); } return formatNonError(error); }; if (typeof Error.stackTraceLimit === "number" && typeof Error.captureStackTrace === "function") { Error.stackTraceLimit += 6; stackFramePattern = v8stackFramePattern; formatStack = v8stackFormatter; var captureStackTrace = Error.captureStackTrace; shouldIgnore = function(line) { return bluebirdFramePattern.test(line); }; return function(receiver, ignoreUntil) { Error.stackTraceLimit += 6; captureStackTrace(receiver, ignoreUntil); Error.stackTraceLimit -= 6; }; } var err = new Error(); if (typeof err.stack === "string" && err.stack.split("\n")[0].indexOf("stackDetection@") >= 0) { stackFramePattern = /@/; formatStack = v8stackFormatter; indentStackFrames = true; return function captureStackTrace(o) { o.stack = new Error().stack; }; } var hasStackAfterThrow; try { throw new Error(); } catch(e) { hasStackAfterThrow = ("stack" in e); } if (!("stack" in err) && hasStackAfterThrow && typeof Error.stackTraceLimit === "number") { stackFramePattern = v8stackFramePattern; formatStack = v8stackFormatter; return function captureStackTrace(o) { Error.stackTraceLimit += 6; try { throw new Error(); } catch(e) { o.stack = e.stack; } Error.stackTraceLimit -= 6; }; } formatStack = function(stack, error) { if (typeof stack === "string") return stack; if ((typeof error === "object" || typeof error === "function") && error.name !== undefined && error.message !== undefined) { return error.toString(); } return formatNonError(error); }; return null; })([]); if (typeof console !== "undefined" && typeof console.warn !== "undefined") { printWarning = function (message) { console.warn(message); }; if (util.isNode && process.stderr.isTTY) { printWarning = function(message, isSoft) { var color = isSoft ? "\u001b[33m" : "\u001b[31m"; console.warn(color + message + "\u001b[0m\n"); }; } else if (!util.isNode && typeof (new Error().stack) === "string") { printWarning = function(message, isSoft) { console.warn("%c" + message, isSoft ? "color: darkorange" : "color: red"); }; } } var config = { warnings: warnings, longStackTraces: false, cancellation: false, monitoring: false }; if (longStackTraces) Promise.longStackTraces(); return { longStackTraces: function() { return config.longStackTraces; }, warnings: function() { return config.warnings; }, cancellation: function() { return config.cancellation; }, monitoring: function() { return config.monitoring; }, propagateFromFunction: function() { return propagateFromFunction; }, boundValueFunction: function() { return boundValueFunction; }, checkForgottenReturns: checkForgottenReturns, setBounds: setBounds, warn: warn, deprecated: deprecated, CapturedTrace: CapturedTrace, fireDomEvent: fireDomEvent, fireGlobalEvent: fireGlobalEvent }; }; },{"./errors":12,"./util":36}],10:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise) { function returner() { return this.value; } function thrower() { throw this.reason; } Promise.prototype["return"] = Promise.prototype.thenReturn = function (value) { if (value instanceof Promise) value.suppressUnhandledRejections(); return this._then( returner, undefined, undefined, {value: value}, undefined); }; Promise.prototype["throw"] = Promise.prototype.thenThrow = function (reason) { return this._then( thrower, undefined, undefined, {reason: reason}, undefined); }; Promise.prototype.catchThrow = function (reason) { if (arguments.length <= 1) { return this._then( undefined, thrower, undefined, {reason: reason}, undefined); } else { var _reason = arguments[1]; var handler = function() {throw _reason;}; return this.caught(reason, handler); } }; Promise.prototype.catchReturn = function (value) { if (arguments.length <= 1) { if (value instanceof Promise) value.suppressUnhandledRejections(); return this._then( undefined, returner, undefined, {value: value}, undefined); } else { var _value = arguments[1]; if (_value instanceof Promise) _value.suppressUnhandledRejections(); var handler = function() {return _value;}; return this.caught(value, handler); } }; }; },{}],11:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL) { var PromiseReduce = Promise.reduce; var PromiseAll = Promise.all; function promiseAllThis() { return PromiseAll(this); } function PromiseMapSeries(promises, fn) { return PromiseReduce(promises, fn, INTERNAL, INTERNAL); } Promise.prototype.each = function (fn) { return this.mapSeries(fn) ._then(promiseAllThis, undefined, undefined, this, undefined); }; Promise.prototype.mapSeries = function (fn) { return PromiseReduce(this, fn, INTERNAL, INTERNAL); }; Promise.each = function (promises, fn) { return PromiseMapSeries(promises, fn) ._then(promiseAllThis, undefined, undefined, promises, undefined); }; Promise.mapSeries = PromiseMapSeries; }; },{}],12:[function(_dereq_,module,exports){ "use strict"; var es5 = _dereq_("./es5"); var Objectfreeze = es5.freeze; var util = _dereq_("./util"); var inherits = util.inherits; var notEnumerableProp = util.notEnumerableProp; function subError(nameProperty, defaultMessage) { function SubError(message) { if (!(this instanceof SubError)) return new SubError(message); notEnumerableProp(this, "message", typeof message === "string" ? message : defaultMessage); notEnumerableProp(this, "name", nameProperty); if (Error.captureStackTrace) { Error.captureStackTrace(this, this.constructor); } else { Error.call(this); } } inherits(SubError, Error); return SubError; } var _TypeError, _RangeError; var Warning = subError("Warning", "warning"); var CancellationError = subError("CancellationError", "cancellation error"); var TimeoutError = subError("TimeoutError", "timeout error"); var AggregateError = subError("AggregateError", "aggregate error"); try { _TypeError = TypeError; _RangeError = RangeError; } catch(e) { _TypeError = subError("TypeError", "type error"); _RangeError = subError("RangeError", "range error"); } var methods = ("join pop push shift unshift slice filter forEach some " + "every map indexOf lastIndexOf reduce reduceRight sort reverse").split(" "); for (var i = 0; i < methods.length; ++i) { if (typeof Array.prototype[methods[i]] === "function") { AggregateError.prototype[methods[i]] = Array.prototype[methods[i]]; } } es5.defineProperty(AggregateError.prototype, "length", { value: 0, configurable: false, writable: true, enumerable: true }); AggregateError.prototype["isOperational"] = true; var level = 0; AggregateError.prototype.toString = function() { var indent = Array(level * 4 + 1).join(" "); var ret = "\n" + indent + "AggregateError of:" + "\n"; level++; indent = Array(level * 4 + 1).join(" "); for (var i = 0; i < this.length; ++i) { var str = this[i] === this ? "[Circular AggregateError]" : this[i] + ""; var lines = str.split("\n"); for (var j = 0; j < lines.length; ++j) { lines[j] = indent + lines[j]; } str = lines.join("\n"); ret += str + "\n"; } level--; return ret; }; function OperationalError(message) { if (!(this instanceof OperationalError)) return new OperationalError(message); notEnumerableProp(this, "name", "OperationalError"); notEnumerableProp(this, "message", message); this.cause = message; this["isOperational"] = true; if (message instanceof Error) { notEnumerableProp(this, "message", message.message); notEnumerableProp(this, "stack", message.stack); } else if (Error.captureStackTrace) { Error.captureStackTrace(this, this.constructor); } } inherits(OperationalError, Error); var errorTypes = Error["__BluebirdErrorTypes__"]; if (!errorTypes) { errorTypes = Objectfreeze({ CancellationError: CancellationError, TimeoutError: TimeoutError, OperationalError: OperationalError, RejectionError: OperationalError, AggregateError: AggregateError }); es5.defineProperty(Error, "__BluebirdErrorTypes__", { value: errorTypes, writable: false, enumerable: false, configurable: false }); } module.exports = { Error: Error, TypeError: _TypeError, RangeError: _RangeError, CancellationError: errorTypes.CancellationError, OperationalError: errorTypes.OperationalError, TimeoutError: errorTypes.TimeoutError, AggregateError: errorTypes.AggregateError, Warning: Warning }; },{"./es5":13,"./util":36}],13:[function(_dereq_,module,exports){ var isES5 = (function(){ "use strict"; return this === undefined; })(); if (isES5) { module.exports = { freeze: Object.freeze, defineProperty: Object.defineProperty, getDescriptor: Object.getOwnPropertyDescriptor, keys: Object.keys, names: Object.getOwnPropertyNames, getPrototypeOf: Object.getPrototypeOf, isArray: Array.isArray, isES5: isES5, propertyIsWritable: function(obj, prop) { var descriptor = Object.getOwnPropertyDescriptor(obj, prop); return !!(!descriptor || descriptor.writable || descriptor.set); } }; } else { var has = {}.hasOwnProperty; var str = {}.toString; var proto = {}.constructor.prototype; var ObjectKeys = function (o) { var ret = []; for (var key in o) { if (has.call(o, key)) { ret.push(key); } } return ret; }; var ObjectGetDescriptor = function(o, key) { return {value: o[key]}; }; var ObjectDefineProperty = function (o, key, desc) { o[key] = desc.value; return o; }; var ObjectFreeze = function (obj) { return obj; }; var ObjectGetPrototypeOf = function (obj) { try { return Object(obj).constructor.prototype; } catch (e) { return proto; } }; var ArrayIsArray = function (obj) { try { return str.call(obj) === "[object Array]"; } catch(e) { return false; } }; module.exports = { isArray: ArrayIsArray, keys: ObjectKeys, names: ObjectKeys, defineProperty: ObjectDefineProperty, getDescriptor: ObjectGetDescriptor, freeze: ObjectFreeze, getPrototypeOf: ObjectGetPrototypeOf, isES5: isES5, propertyIsWritable: function() { return true; } }; } },{}],14:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL) { var PromiseMap = Promise.map; Promise.prototype.filter = function (fn, options) { return PromiseMap(this, fn, options, INTERNAL); }; Promise.filter = function (promises, fn, options) { return PromiseMap(promises, fn, options, INTERNAL); }; }; },{}],15:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, tryConvertToPromise) { var util = _dereq_("./util"); var CancellationError = Promise.CancellationError; var errorObj = util.errorObj; function PassThroughHandlerContext(promise, type, handler) { this.promise = promise; this.type = type; this.handler = handler; this.called = false; this.cancelPromise = null; } PassThroughHandlerContext.prototype.isFinallyHandler = function() { return this.type === 0; }; function FinallyHandlerCancelReaction(finallyHandler) { this.finallyHandler = finallyHandler; } FinallyHandlerCancelReaction.prototype._resultCancelled = function() { checkCancel(this.finallyHandler); }; function checkCancel(ctx, reason) { if (ctx.cancelPromise != null) { if (arguments.length > 1) { ctx.cancelPromise._reject(reason); } else { ctx.cancelPromise._cancel(); } ctx.cancelPromise = null; return true; } return false; } function succeed() { return finallyHandler.call(this, this.promise._target()._settledValue()); } function fail(reason) { if (checkCancel(this, reason)) return; errorObj.e = reason; return errorObj; } function finallyHandler(reasonOrValue) { var promise = this.promise; var handler = this.handler; if (!this.called) { this.called = true; var ret = this.isFinallyHandler() ? handler.call(promise._boundValue()) : handler.call(promise._boundValue(), reasonOrValue); if (ret !== undefined) { promise._setReturnedNonUndefined(); var maybePromise = tryConvertToPromise(ret, promise); if (maybePromise instanceof Promise) { if (this.cancelPromise != null) { if (maybePromise.isCancelled()) { var reason = new CancellationError("late cancellation observer"); promise._attachExtraTrace(reason); errorObj.e = reason; return errorObj; } else if (maybePromise.isPending()) { maybePromise._attachCancellationCallback( new FinallyHandlerCancelReaction(this)); } } return maybePromise._then( succeed, fail, undefined, this, undefined); } } } if (promise.isRejected()) { checkCancel(this); errorObj.e = reasonOrValue; return errorObj; } else { checkCancel(this); return reasonOrValue; } } Promise.prototype._passThrough = function(handler, type, success, fail) { if (typeof handler !== "function") return this.then(); return this._then(success, fail, undefined, new PassThroughHandlerContext(this, type, handler), undefined); }; Promise.prototype.lastly = Promise.prototype["finally"] = function (handler) { return this._passThrough(handler, 0, finallyHandler, finallyHandler); }; Promise.prototype.tap = function (handler) { return this._passThrough(handler, 1, finallyHandler); }; return PassThroughHandlerContext; }; },{"./util":36}],16:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, apiRejection, INTERNAL, tryConvertToPromise, Proxyable, debug) { var errors = _dereq_("./errors"); var TypeError = errors.TypeError; var util = _dereq_("./util"); var errorObj = util.errorObj; var tryCatch = util.tryCatch; var yieldHandlers = []; function promiseFromYieldHandler(value, yieldHandlers, traceParent) { for (var i = 0; i < yieldHandlers.length; ++i) { traceParent._pushContext(); var result = tryCatch(yieldHandlers[i])(value); traceParent._popContext(); if (result === errorObj) { traceParent._pushContext(); var ret = Promise.reject(errorObj.e); traceParent._popContext(); return ret; } var maybePromise = tryConvertToPromise(result, traceParent); if (maybePromise instanceof Promise) return maybePromise; } return null; } function PromiseSpawn(generatorFunction, receiver, yieldHandler, stack) { if (debug.cancellation()) { var internal = new Promise(INTERNAL); var _finallyPromise = this._finallyPromise = new Promise(INTERNAL); this._promise = internal.lastly(function() { return _finallyPromise; }); internal._captureStackTrace(); internal._setOnCancel(this); } else { var promise = this._promise = new Promise(INTERNAL); promise._captureStackTrace(); } this._stack = stack; this._generatorFunction = generatorFunction; this._receiver = receiver; this._generator = undefined; this._yieldHandlers = typeof yieldHandler === "function" ? [yieldHandler].concat(yieldHandlers) : yieldHandlers; this._yieldedPromise = null; this._cancellationPhase = false; } util.inherits(PromiseSpawn, Proxyable); PromiseSpawn.prototype._isResolved = function() { return this._promise === null; }; PromiseSpawn.prototype._cleanup = function() { this._promise = this._generator = null; if (debug.cancellation() && this._finallyPromise !== null) { this._finallyPromise._fulfill(); this._finallyPromise = null; } }; PromiseSpawn.prototype._promiseCancelled = function() { if (this._isResolved()) return; var implementsReturn = typeof this._generator["return"] !== "undefined"; var result; if (!implementsReturn) { var reason = new Promise.CancellationError( "generator .return() sentinel"); Promise.coroutine.returnSentinel = reason; this._promise._attachExtraTrace(reason); this._promise._pushContext(); result = tryCatch(this._generator["throw"]).call(this._generator, reason); this._promise._popContext(); } else { this._promise._pushContext(); result = tryCatch(this._generator["return"]).call(this._generator, undefined); this._promise._popContext(); } this._cancellationPhase = true; this._yieldedPromise = null; this._continue(result); }; PromiseSpawn.prototype._promiseFulfilled = function(value) { this._yieldedPromise = null; this._promise._pushContext(); var result = tryCatch(this._generator.next).call(this._generator, value); this._promise._popContext(); this._continue(result); }; PromiseSpawn.prototype._promiseRejected = function(reason) { this._yieldedPromise = null; this._promise._attachExtraTrace(reason); this._promise._pushContext(); var result = tryCatch(this._generator["throw"]) .call(this._generator, reason); this._promise._popContext(); this._continue(result); }; PromiseSpawn.prototype._resultCancelled = function() { if (this._yieldedPromise instanceof Promise) { var promise = this._yieldedPromise; this._yieldedPromise = null; promise.cancel(); } }; PromiseSpawn.prototype.promise = function () { return this._promise; }; PromiseSpawn.prototype._run = function () { this._generator = this._generatorFunction.call(this._receiver); this._receiver = this._generatorFunction = undefined; this._promiseFulfilled(undefined); }; PromiseSpawn.prototype._continue = function (result) { var promise = this._promise; if (result === errorObj) { this._cleanup(); if (this._cancellationPhase) { return promise.cancel(); } else { return promise._rejectCallback(result.e, false); } } var value = result.value; if (result.done === true) { this._cleanup(); if (this._cancellationPhase) { return promise.cancel(); } else { return promise._resolveCallback(value); } } else { var maybePromise = tryConvertToPromise(value, this._promise); if (!(maybePromise instanceof Promise)) { maybePromise = promiseFromYieldHandler(maybePromise, this._yieldHandlers, this._promise); if (maybePromise === null) { this._promiseRejected( new TypeError( "A value %s was yielded that could not be treated as a promise\u000a\u000a See http://goo.gl/MqrFmX\u000a\u000a".replace("%s", value) + "From coroutine:\u000a" + this._stack.split("\n").slice(1, -7).join("\n") ) ); return; } } maybePromise = maybePromise._target(); var bitField = maybePromise._bitField; ; if (((bitField & 50397184) === 0)) { this._yieldedPromise = maybePromise; maybePromise._proxy(this, null); } else if (((bitField & 33554432) !== 0)) { this._promiseFulfilled(maybePromise._value()); } else if (((bitField & 16777216) !== 0)) { this._promiseRejected(maybePromise._reason()); } else { this._promiseCancelled(); } } }; Promise.coroutine = function (generatorFunction, options) { if (typeof generatorFunction !== "function") { throw new TypeError("generatorFunction must be a function\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } var yieldHandler = Object(options).yieldHandler; var PromiseSpawn$ = PromiseSpawn; var stack = new Error().stack; return function () { var generator = generatorFunction.apply(this, arguments); var spawn = new PromiseSpawn$(undefined, undefined, yieldHandler, stack); var ret = spawn.promise(); spawn._generator = generator; spawn._promiseFulfilled(undefined); return ret; }; }; Promise.coroutine.addYieldHandler = function(fn) { if (typeof fn !== "function") { throw new TypeError("expecting a function but got " + util.classString(fn)); } yieldHandlers.push(fn); }; Promise.spawn = function (generatorFunction) { debug.deprecated("Promise.spawn()", "Promise.coroutine()"); if (typeof generatorFunction !== "function") { return apiRejection("generatorFunction must be a function\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } var spawn = new PromiseSpawn(generatorFunction, this); var ret = spawn.promise(); spawn._run(Promise.spawn); return ret; }; }; },{"./errors":12,"./util":36}],17:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, PromiseArray, tryConvertToPromise, INTERNAL) { var util = _dereq_("./util"); var canEvaluate = util.canEvaluate; var tryCatch = util.tryCatch; var errorObj = util.errorObj; var reject; if (false) { if (canEvaluate) { var thenCallback = function(i) { return new Function("value", "holder", " \n\ 'use strict'; \n\ holder.pIndex = value; \n\ holder.checkFulfillment(this); \n\ ".replace(/Index/g, i)); }; var promiseSetter = function(i) { return new Function("promise", "holder", " \n\ 'use strict'; \n\ holder.pIndex = promise; \n\ ".replace(/Index/g, i)); }; var generateHolderClass = function(total) { var props = new Array(total); for (var i = 0; i < props.length; ++i) { props[i] = "this.p" + (i+1); } var assignment = props.join(" = ") + " = null;"; var cancellationCode= "var promise;\n" + props.map(function(prop) { return " \n\ promise = " + prop + "; \n\ if (promise instanceof Promise) { \n\ promise.cancel(); \n\ } \n\ "; }).join("\n"); var passedArguments = props.join(", "); var name = "Holder$" + total; var code = "return function(tryCatch, errorObj, Promise) { \n\ 'use strict'; \n\ function [TheName](fn) { \n\ [TheProperties] \n\ this.fn = fn; \n\ this.now = 0; \n\ } \n\ [TheName].prototype.checkFulfillment = function(promise) { \n\ var now = ++this.now; \n\ if (now === [TheTotal]) { \n\ promise._pushContext(); \n\ var callback = this.fn; \n\ var ret = tryCatch(callback)([ThePassedArguments]); \n\ promise._popContext(); \n\ if (ret === errorObj) { \n\ promise._rejectCallback(ret.e, false); \n\ } else { \n\ promise._resolveCallback(ret); \n\ } \n\ } \n\ }; \n\ \n\ [TheName].prototype._resultCancelled = function() { \n\ [CancellationCode] \n\ }; \n\ \n\ return [TheName]; \n\ }(tryCatch, errorObj, Promise); \n\ "; code = code.replace(/\[TheName\]/g, name) .replace(/\[TheTotal\]/g, total) .replace(/\[ThePassedArguments\]/g, passedArguments) .replace(/\[TheProperties\]/g, assignment) .replace(/\[CancellationCode\]/g, cancellationCode); return new Function("tryCatch", "errorObj", "Promise", code) (tryCatch, errorObj, Promise); }; var holderClasses = []; var thenCallbacks = []; var promiseSetters = []; for (var i = 0; i < 8; ++i) { holderClasses.push(generateHolderClass(i + 1)); thenCallbacks.push(thenCallback(i + 1)); promiseSetters.push(promiseSetter(i + 1)); } reject = function (reason) { this._reject(reason); }; }} Promise.join = function () { var last = arguments.length - 1; var fn; if (last > 0 && typeof arguments[last] === "function") { fn = arguments[last]; if (false) { if (last <= 8 && canEvaluate) { var ret = new Promise(INTERNAL); ret._captureStackTrace(); var HolderClass = holderClasses[last - 1]; var holder = new HolderClass(fn); var callbacks = thenCallbacks; for (var i = 0; i < last; ++i) { var maybePromise = tryConvertToPromise(arguments[i], ret); if (maybePromise instanceof Promise) { maybePromise = maybePromise._target(); var bitField = maybePromise._bitField; ; if (((bitField & 50397184) === 0)) { maybePromise._then(callbacks[i], reject, undefined, ret, holder); promiseSetters[i](maybePromise, holder); } else if (((bitField & 33554432) !== 0)) { callbacks[i].call(ret, maybePromise._value(), holder); } else if (((bitField & 16777216) !== 0)) { ret._reject(maybePromise._reason()); } else { ret._cancel(); } } else { callbacks[i].call(ret, maybePromise, holder); } } if (!ret._isFateSealed()) { ret._setAsyncGuaranteed(); ret._setOnCancel(holder); } return ret; } } } var args = [].slice.call(arguments);; if (fn) args.pop(); var ret = new PromiseArray(args).promise(); return fn !== undefined ? ret.spread(fn) : ret; }; }; },{"./util":36}],18:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, PromiseArray, apiRejection, tryConvertToPromise, INTERNAL, debug) { var getDomain = Promise._getDomain; var util = _dereq_("./util"); var tryCatch = util.tryCatch; var errorObj = util.errorObj; var EMPTY_ARRAY = []; function MappingPromiseArray(promises, fn, limit, _filter) { this.constructor$(promises); this._promise._captureStackTrace(); var domain = getDomain(); this._callback = domain === null ? fn : domain.bind(fn); this._preservedValues = _filter === INTERNAL ? new Array(this.length()) : null; this._limit = limit; this._inFlight = 0; this._queue = limit >= 1 ? [] : EMPTY_ARRAY; this._init$(undefined, -2); } util.inherits(MappingPromiseArray, PromiseArray); MappingPromiseArray.prototype._init = function () {}; MappingPromiseArray.prototype._promiseFulfilled = function (value, index) { var values = this._values; var length = this.length(); var preservedValues = this._preservedValues; var limit = this._limit; if (index < 0) { index = (index * -1) - 1; values[index] = value; if (limit >= 1) { this._inFlight--; this._drainQueue(); if (this._isResolved()) return true; } } else { if (limit >= 1 && this._inFlight >= limit) { values[index] = value; this._queue.push(index); return false; } if (preservedValues !== null) preservedValues[index] = value; var promise = this._promise; var callback = this._callback; var receiver = promise._boundValue(); promise._pushContext(); var ret = tryCatch(callback).call(receiver, value, index, length); var promiseCreated = promise._popContext(); debug.checkForgottenReturns( ret, promiseCreated, preservedValues !== null ? "Promise.filter" : "Promise.map", promise ); if (ret === errorObj) { this._reject(ret.e); return true; } var maybePromise = tryConvertToPromise(ret, this._promise); if (maybePromise instanceof Promise) { maybePromise = maybePromise._target(); var bitField = maybePromise._bitField; ; if (((bitField & 50397184) === 0)) { if (limit >= 1) this._inFlight++; values[index] = maybePromise; maybePromise._proxy(this, (index + 1) * -1); return false; } else if (((bitField & 33554432) !== 0)) { ret = maybePromise._value(); } else if (((bitField & 16777216) !== 0)) { this._reject(maybePromise._reason()); return true; } else { this._cancel(); return true; } } values[index] = ret; } var totalResolved = ++this._totalResolved; if (totalResolved >= length) { if (preservedValues !== null) { this._filter(values, preservedValues); } else { this._resolve(values); } return true; } return false; }; MappingPromiseArray.prototype._drainQueue = function () { var queue = this._queue; var limit = this._limit; var values = this._values; while (queue.length > 0 && this._inFlight < limit) { if (this._isResolved()) return; var index = queue.pop(); this._promiseFulfilled(values[index], index); } }; MappingPromiseArray.prototype._filter = function (booleans, values) { var len = values.length; var ret = new Array(len); var j = 0; for (var i = 0; i < len; ++i) { if (booleans[i]) ret[j++] = values[i]; } ret.length = j; this._resolve(ret); }; MappingPromiseArray.prototype.preservedValues = function () { return this._preservedValues; }; function map(promises, fn, options, _filter) { if (typeof fn !== "function") { return apiRejection("expecting a function but got " + util.classString(fn)); } var limit = typeof options === "object" && options !== null ? options.concurrency : 0; limit = typeof limit === "number" && isFinite(limit) && limit >= 1 ? limit : 0; return new MappingPromiseArray(promises, fn, limit, _filter).promise(); } Promise.prototype.map = function (fn, options) { return map(this, fn, options, null); }; Promise.map = function (promises, fn, options, _filter) { return map(promises, fn, options, _filter); }; }; },{"./util":36}],19:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL, tryConvertToPromise, apiRejection, debug) { var util = _dereq_("./util"); var tryCatch = util.tryCatch; Promise.method = function (fn) { if (typeof fn !== "function") { throw new Promise.TypeError("expecting a function but got " + util.classString(fn)); } return function () { var ret = new Promise(INTERNAL); ret._captureStackTrace(); ret._pushContext(); var value = tryCatch(fn).apply(this, arguments); var promiseCreated = ret._popContext(); debug.checkForgottenReturns( value, promiseCreated, "Promise.method", ret); ret._resolveFromSyncValue(value); return ret; }; }; Promise.attempt = Promise["try"] = function (fn) { if (typeof fn !== "function") { return apiRejection("expecting a function but got " + util.classString(fn)); } var ret = new Promise(INTERNAL); ret._captureStackTrace(); ret._pushContext(); var value; if (arguments.length > 1) { debug.deprecated("calling Promise.try with more than 1 argument"); var arg = arguments[1]; var ctx = arguments[2]; value = util.isArray(arg) ? tryCatch(fn).apply(ctx, arg) : tryCatch(fn).call(ctx, arg); } else { value = tryCatch(fn)(); } var promiseCreated = ret._popContext(); debug.checkForgottenReturns( value, promiseCreated, "Promise.try", ret); ret._resolveFromSyncValue(value); return ret; }; Promise.prototype._resolveFromSyncValue = function (value) { if (value === util.errorObj) { this._rejectCallback(value.e, false); } else { this._resolveCallback(value, true); } }; }; },{"./util":36}],20:[function(_dereq_,module,exports){ "use strict"; var util = _dereq_("./util"); var maybeWrapAsError = util.maybeWrapAsError; var errors = _dereq_("./errors"); var OperationalError = errors.OperationalError; var es5 = _dereq_("./es5"); function isUntypedError(obj) { return obj instanceof Error && es5.getPrototypeOf(obj) === Error.prototype; } var rErrorKey = /^(?:name|message|stack|cause)$/; function wrapAsOperationalError(obj) { var ret; if (isUntypedError(obj)) { ret = new OperationalError(obj); ret.name = obj.name; ret.message = obj.message; ret.stack = obj.stack; var keys = es5.keys(obj); for (var i = 0; i < keys.length; ++i) { var key = keys[i]; if (!rErrorKey.test(key)) { ret[key] = obj[key]; } } return ret; } util.markAsOriginatingFromRejection(obj); return obj; } function nodebackForPromise(promise, multiArgs) { return function(err, value) { if (promise === null) return; if (err) { var wrapped = wrapAsOperationalError(maybeWrapAsError(err)); promise._attachExtraTrace(wrapped); promise._reject(wrapped); } else if (!multiArgs) { promise._fulfill(value); } else { var args = [].slice.call(arguments, 1);; promise._fulfill(args); } promise = null; }; } module.exports = nodebackForPromise; },{"./errors":12,"./es5":13,"./util":36}],21:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise) { var util = _dereq_("./util"); var async = Promise._async; var tryCatch = util.tryCatch; var errorObj = util.errorObj; function spreadAdapter(val, nodeback) { var promise = this; if (!util.isArray(val)) return successAdapter.call(promise, val, nodeback); var ret = tryCatch(nodeback).apply(promise._boundValue(), [null].concat(val)); if (ret === errorObj) { async.throwLater(ret.e); } } function successAdapter(val, nodeback) { var promise = this; var receiver = promise._boundValue(); var ret = val === undefined ? tryCatch(nodeback).call(receiver, null) : tryCatch(nodeback).call(receiver, null, val); if (ret === errorObj) { async.throwLater(ret.e); } } function errorAdapter(reason, nodeback) { var promise = this; if (!reason) { var newReason = new Error(reason + ""); newReason.cause = reason; reason = newReason; } var ret = tryCatch(nodeback).call(promise._boundValue(), reason); if (ret === errorObj) { async.throwLater(ret.e); } } Promise.prototype.asCallback = Promise.prototype.nodeify = function (nodeback, options) { if (typeof nodeback == "function") { var adapter = successAdapter; if (options !== undefined && Object(options).spread) { adapter = spreadAdapter; } this._then( adapter, errorAdapter, undefined, this, nodeback ); } return this; }; }; },{"./util":36}],22:[function(_dereq_,module,exports){ "use strict"; module.exports = function() { var makeSelfResolutionError = function () { return new TypeError("circular promise resolution chain\u000a\u000a See http://goo.gl/MqrFmX\u000a"); }; var reflectHandler = function() { return new Promise.PromiseInspection(this._target()); }; var apiRejection = function(msg) { return Promise.reject(new TypeError(msg)); }; function Proxyable() {} var UNDEFINED_BINDING = {}; var util = _dereq_("./util"); var getDomain; if (util.isNode) { getDomain = function() { var ret = process.domain; if (ret === undefined) ret = null; return ret; }; } else { getDomain = function() { return null; }; } util.notEnumerableProp(Promise, "_getDomain", getDomain); var es5 = _dereq_("./es5"); var Async = _dereq_("./async"); var async = new Async(); es5.defineProperty(Promise, "_async", {value: async}); var errors = _dereq_("./errors"); var TypeError = Promise.TypeError = errors.TypeError; Promise.RangeError = errors.RangeError; var CancellationError = Promise.CancellationError = errors.CancellationError; Promise.TimeoutError = errors.TimeoutError; Promise.OperationalError = errors.OperationalError; Promise.RejectionError = errors.OperationalError; Promise.AggregateError = errors.AggregateError; var INTERNAL = function(){}; var APPLY = {}; var NEXT_FILTER = {}; var tryConvertToPromise = _dereq_("./thenables")(Promise, INTERNAL); var PromiseArray = _dereq_("./promise_array")(Promise, INTERNAL, tryConvertToPromise, apiRejection, Proxyable); var Context = _dereq_("./context")(Promise); /*jshint unused:false*/ var createContext = Context.create; var debug = _dereq_("./debuggability")(Promise, Context); var CapturedTrace = debug.CapturedTrace; var PassThroughHandlerContext = _dereq_("./finally")(Promise, tryConvertToPromise); var catchFilter = _dereq_("./catch_filter")(NEXT_FILTER); var nodebackForPromise = _dereq_("./nodeback"); var errorObj = util.errorObj; var tryCatch = util.tryCatch; function check(self, executor) { if (typeof executor !== "function") { throw new TypeError("expecting a function but got " + util.classString(executor)); } if (self.constructor !== Promise) { throw new TypeError("the promise constructor cannot be invoked directly\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } } function Promise(executor) { this._bitField = 0; this._fulfillmentHandler0 = undefined; this._rejectionHandler0 = undefined; this._promise0 = undefined; this._receiver0 = undefined; if (executor !== INTERNAL) { check(this, executor); this._resolveFromExecutor(executor); } this._promiseCreated(); this._fireEvent("promiseCreated", this); } Promise.prototype.toString = function () { return "[object Promise]"; }; Promise.prototype.caught = Promise.prototype["catch"] = function (fn) { var len = arguments.length; if (len > 1) { var catchInstances = new Array(len - 1), j = 0, i; for (i = 0; i < len - 1; ++i) { var item = arguments[i]; if (util.isObject(item)) { catchInstances[j++] = item; } else { return apiRejection("expecting an object but got " + util.classString(item)); } } catchInstances.length = j; fn = arguments[i]; return this.then(undefined, catchFilter(catchInstances, fn, this)); } return this.then(undefined, fn); }; Promise.prototype.reflect = function () { return this._then(reflectHandler, reflectHandler, undefined, this, undefined); }; Promise.prototype.then = function (didFulfill, didReject) { if (debug.warnings() && arguments.length > 0 && typeof didFulfill !== "function" && typeof didReject !== "function") { var msg = ".then() only accepts functions but was passed: " + util.classString(didFulfill); if (arguments.length > 1) { msg += ", " + util.classString(didReject); } this._warn(msg); } return this._then(didFulfill, didReject, undefined, undefined, undefined); }; Promise.prototype.done = function (didFulfill, didReject) { var promise = this._then(didFulfill, didReject, undefined, undefined, undefined); promise._setIsFinal(); }; Promise.prototype.spread = function (fn) { if (typeof fn !== "function") { return apiRejection("expecting a function but got " + util.classString(fn)); } return this.all()._then(fn, undefined, undefined, APPLY, undefined); }; Promise.prototype.toJSON = function () { var ret = { isFulfilled: false, isRejected: false, fulfillmentValue: undefined, rejectionReason: undefined }; if (this.isFulfilled()) { ret.fulfillmentValue = this.value(); ret.isFulfilled = true; } else if (this.isRejected()) { ret.rejectionReason = this.reason(); ret.isRejected = true; } return ret; }; Promise.prototype.all = function () { if (arguments.length > 0) { this._warn(".all() was passed arguments but it does not take any"); } return new PromiseArray(this).promise(); }; Promise.prototype.error = function (fn) { return this.caught(util.originatesFromRejection, fn); }; Promise.is = function (val) { return val instanceof Promise; }; Promise.fromNode = Promise.fromCallback = function(fn) { var ret = new Promise(INTERNAL); ret._captureStackTrace(); var multiArgs = arguments.length > 1 ? !!Object(arguments[1]).multiArgs : false; var result = tryCatch(fn)(nodebackForPromise(ret, multiArgs)); if (result === errorObj) { ret._rejectCallback(result.e, true); } if (!ret._isFateSealed()) ret._setAsyncGuaranteed(); return ret; }; Promise.all = function (promises) { return new PromiseArray(promises).promise(); }; Promise.cast = function (obj) { var ret = tryConvertToPromise(obj); if (!(ret instanceof Promise)) { ret = new Promise(INTERNAL); ret._captureStackTrace(); ret._setFulfilled(); ret._rejectionHandler0 = obj; } return ret; }; Promise.resolve = Promise.fulfilled = Promise.cast; Promise.reject = Promise.rejected = function (reason) { var ret = new Promise(INTERNAL); ret._captureStackTrace(); ret._rejectCallback(reason, true); return ret; }; Promise.setScheduler = function(fn) { if (typeof fn !== "function") { throw new TypeError("expecting a function but got " + util.classString(fn)); } return async.setScheduler(fn); }; Promise.prototype._then = function ( didFulfill, didReject, _, receiver, internalData ) { var haveInternalData = internalData !== undefined; var promise = haveInternalData ? internalData : new Promise(INTERNAL); var target = this._target(); var bitField = target._bitField; if (!haveInternalData) { promise._propagateFrom(this, 3); promise._captureStackTrace(); if (receiver === undefined && ((this._bitField & 2097152) !== 0)) { if (!((bitField & 50397184) === 0)) { receiver = this._boundValue(); } else { receiver = target === this ? undefined : this._boundTo; } } this._fireEvent("promiseChained", this, promise); } var domain = getDomain(); if (!((bitField & 50397184) === 0)) { var handler, value, settler = target._settlePromiseCtx; if (((bitField & 33554432) !== 0)) { value = target._rejectionHandler0; handler = didFulfill; } else if (((bitField & 16777216) !== 0)) { value = target._fulfillmentHandler0; handler = didReject; target._unsetRejectionIsUnhandled(); } else { settler = target._settlePromiseLateCancellationObserver; value = new CancellationError("late cancellation observer"); target._attachExtraTrace(value); handler = didReject; } async.invoke(settler, target, { handler: domain === null ? handler : (typeof handler === "function" && domain.bind(handler)), promise: promise, receiver: receiver, value: value }); } else { target._addCallbacks(didFulfill, didReject, promise, receiver, domain); } return promise; }; Promise.prototype._length = function () { return this._bitField & 65535; }; Promise.prototype._isFateSealed = function () { return (this._bitField & 117506048) !== 0; }; Promise.prototype._isFollowing = function () { return (this._bitField & 67108864) === 67108864; }; Promise.prototype._setLength = function (len) { this._bitField = (this._bitField & -65536) | (len & 65535); }; Promise.prototype._setFulfilled = function () { this._bitField = this._bitField | 33554432; this._fireEvent("promiseFulfilled", this); }; Promise.prototype._setRejected = function () { this._bitField = this._bitField | 16777216; this._fireEvent("promiseRejected", this); }; Promise.prototype._setFollowing = function () { this._bitField = this._bitField | 67108864; this._fireEvent("promiseResolved", this); }; Promise.prototype._setIsFinal = function () { this._bitField = this._bitField | 4194304; }; Promise.prototype._isFinal = function () { return (this._bitField & 4194304) > 0; }; Promise.prototype._unsetCancelled = function() { this._bitField = this._bitField & (~65536); }; Promise.prototype._setCancelled = function() { this._bitField = this._bitField | 65536; this._fireEvent("promiseCancelled", this); }; Promise.prototype._setAsyncGuaranteed = function() { if (async.hasCustomScheduler()) return; this._bitField = this._bitField | 134217728; }; Promise.prototype._receiverAt = function (index) { var ret = index === 0 ? this._receiver0 : this[ index * 4 - 4 + 3]; if (ret === UNDEFINED_BINDING) { return undefined; } else if (ret === undefined && this._isBound()) { return this._boundValue(); } return ret; }; Promise.prototype._promiseAt = function (index) { return this[ index * 4 - 4 + 2]; }; Promise.prototype._fulfillmentHandlerAt = function (index) { return this[ index * 4 - 4 + 0]; }; Promise.prototype._rejectionHandlerAt = function (index) { return this[ index * 4 - 4 + 1]; }; Promise.prototype._boundValue = function() {}; Promise.prototype._migrateCallback0 = function (follower) { var bitField = follower._bitField; var fulfill = follower._fulfillmentHandler0; var reject = follower._rejectionHandler0; var promise = follower._promise0; var receiver = follower._receiverAt(0); if (receiver === undefined) receiver = UNDEFINED_BINDING; this._addCallbacks(fulfill, reject, promise, receiver, null); }; Promise.prototype._migrateCallbackAt = function (follower, index) { var fulfill = follower._fulfillmentHandlerAt(index); var reject = follower._rejectionHandlerAt(index); var promise = follower._promiseAt(index); var receiver = follower._receiverAt(index); if (receiver === undefined) receiver = UNDEFINED_BINDING; this._addCallbacks(fulfill, reject, promise, receiver, null); }; Promise.prototype._addCallbacks = function ( fulfill, reject, promise, receiver, domain ) { var index = this._length(); if (index >= 65535 - 4) { index = 0; this._setLength(0); } if (index === 0) { this._promise0 = promise; this._receiver0 = receiver; if (typeof fulfill === "function") { this._fulfillmentHandler0 = domain === null ? fulfill : domain.bind(fulfill); } if (typeof reject === "function") { this._rejectionHandler0 = domain === null ? reject : domain.bind(reject); } } else { var base = index * 4 - 4; this[base + 2] = promise; this[base + 3] = receiver; if (typeof fulfill === "function") { this[base + 0] = domain === null ? fulfill : domain.bind(fulfill); } if (typeof reject === "function") { this[base + 1] = domain === null ? reject : domain.bind(reject); } } this._setLength(index + 1); return index; }; Promise.prototype._proxy = function (proxyable, arg) { this._addCallbacks(undefined, undefined, arg, proxyable, null); }; Promise.prototype._resolveCallback = function(value, shouldBind) { if (((this._bitField & 117506048) !== 0)) return; if (value === this) return this._rejectCallback(makeSelfResolutionError(), false); var maybePromise = tryConvertToPromise(value, this); if (!(maybePromise instanceof Promise)) return this._fulfill(value); if (shouldBind) this._propagateFrom(maybePromise, 2); var promise = maybePromise._target(); if (promise === this) { this._reject(makeSelfResolutionError()); return; } var bitField = promise._bitField; if (((bitField & 50397184) === 0)) { var len = this._length(); if (len > 0) promise._migrateCallback0(this); for (var i = 1; i < len; ++i) { promise._migrateCallbackAt(this, i); } this._setFollowing(); this._setLength(0); this._setFollowee(promise); } else if (((bitField & 33554432) !== 0)) { this._fulfill(promise._value()); } else if (((bitField & 16777216) !== 0)) { this._reject(promise._reason()); } else { var reason = new CancellationError("late cancellation observer"); promise._attachExtraTrace(reason); this._reject(reason); } }; Promise.prototype._rejectCallback = function(reason, synchronous, ignoreNonErrorWarnings) { var trace = util.ensureErrorObject(reason); var hasStack = trace === reason; if (!hasStack && !ignoreNonErrorWarnings && debug.warnings()) { var message = "a promise was rejected with a non-error: " + util.classString(reason); this._warn(message, true); } this._attachExtraTrace(trace, synchronous ? hasStack : false); this._reject(reason); }; Promise.prototype._resolveFromExecutor = function (executor) { var promise = this; this._captureStackTrace(); this._pushContext(); var synchronous = true; var r = this._execute(executor, function(value) { promise._resolveCallback(value); }, function (reason) { promise._rejectCallback(reason, synchronous); }); synchronous = false; this._popContext(); if (r !== undefined) { promise._rejectCallback(r, true); } }; Promise.prototype._settlePromiseFromHandler = function ( handler, receiver, value, promise ) { var bitField = promise._bitField; if (((bitField & 65536) !== 0)) return; promise._pushContext(); var x; if (receiver === APPLY) { if (!value || typeof value.length !== "number") { x = errorObj; x.e = new TypeError("cannot .spread() a non-array: " + util.classString(value)); } else { x = tryCatch(handler).apply(this._boundValue(), value); } } else { x = tryCatch(handler).call(receiver, value); } var promiseCreated = promise._popContext(); bitField = promise._bitField; if (((bitField & 65536) !== 0)) return; if (x === NEXT_FILTER) { promise._reject(value); } else if (x === errorObj) { promise._rejectCallback(x.e, false); } else { debug.checkForgottenReturns(x, promiseCreated, "", promise, this); promise._resolveCallback(x); } }; Promise.prototype._target = function() { var ret = this; while (ret._isFollowing()) ret = ret._followee(); return ret; }; Promise.prototype._followee = function() { return this._rejectionHandler0; }; Promise.prototype._setFollowee = function(promise) { this._rejectionHandler0 = promise; }; Promise.prototype._settlePromise = function(promise, handler, receiver, value) { var isPromise = promise instanceof Promise; var bitField = this._bitField; var asyncGuaranteed = ((bitField & 134217728) !== 0); if (((bitField & 65536) !== 0)) { if (isPromise) promise._invokeInternalOnCancel(); if (receiver instanceof PassThroughHandlerContext && receiver.isFinallyHandler()) { receiver.cancelPromise = promise; if (tryCatch(handler).call(receiver, value) === errorObj) { promise._reject(errorObj.e); } } else if (handler === reflectHandler) { promise._fulfill(reflectHandler.call(receiver)); } else if (receiver instanceof Proxyable) { receiver._promiseCancelled(promise); } else if (isPromise || promise instanceof PromiseArray) { promise._cancel(); } else { receiver.cancel(); } } else if (typeof handler === "function") { if (!isPromise) { handler.call(receiver, value, promise); } else { if (asyncGuaranteed) promise._setAsyncGuaranteed(); this._settlePromiseFromHandler(handler, receiver, value, promise); } } else if (receiver instanceof Proxyable) { if (!receiver._isResolved()) { if (((bitField & 33554432) !== 0)) { receiver._promiseFulfilled(value, promise); } else { receiver._promiseRejected(value, promise); } } } else if (isPromise) { if (asyncGuaranteed) promise._setAsyncGuaranteed(); if (((bitField & 33554432) !== 0)) { promise._fulfill(value); } else { promise._reject(value); } } }; Promise.prototype._settlePromiseLateCancellationObserver = function(ctx) { var handler = ctx.handler; var promise = ctx.promise; var receiver = ctx.receiver; var value = ctx.value; if (typeof handler === "function") { if (!(promise instanceof Promise)) { handler.call(receiver, value, promise); } else { this._settlePromiseFromHandler(handler, receiver, value, promise); } } else if (promise instanceof Promise) { promise._reject(value); } }; Promise.prototype._settlePromiseCtx = function(ctx) { this._settlePromise(ctx.promise, ctx.handler, ctx.receiver, ctx.value); }; Promise.prototype._settlePromise0 = function(handler, value, bitField) { var promise = this._promise0; var receiver = this._receiverAt(0); this._promise0 = undefined; this._receiver0 = undefined; this._settlePromise(promise, handler, receiver, value); }; Promise.prototype._clearCallbackDataAtIndex = function(index) { var base = index * 4 - 4; this[base + 2] = this[base + 3] = this[base + 0] = this[base + 1] = undefined; }; Promise.prototype._fulfill = function (value) { var bitField = this._bitField; if (((bitField & 117506048) >>> 16)) return; if (value === this) { var err = makeSelfResolutionError(); this._attachExtraTrace(err); return this._reject(err); } this._setFulfilled(); this._rejectionHandler0 = value; if ((bitField & 65535) > 0) { if (((bitField & 134217728) !== 0)) { this._settlePromises(); } else { async.settlePromises(this); } } }; Promise.prototype._reject = function (reason) { var bitField = this._bitField; if (((bitField & 117506048) >>> 16)) return; this._setRejected(); this._fulfillmentHandler0 = reason; if (this._isFinal()) { return async.fatalError(reason, util.isNode); } if ((bitField & 65535) > 0) { async.settlePromises(this); } else { this._ensurePossibleRejectionHandled(); } }; Promise.prototype._fulfillPromises = function (len, value) { for (var i = 1; i < len; i++) { var handler = this._fulfillmentHandlerAt(i); var promise = this._promiseAt(i); var receiver = this._receiverAt(i); this._clearCallbackDataAtIndex(i); this._settlePromise(promise, handler, receiver, value); } }; Promise.prototype._rejectPromises = function (len, reason) { for (var i = 1; i < len; i++) { var handler = this._rejectionHandlerAt(i); var promise = this._promiseAt(i); var receiver = this._receiverAt(i); this._clearCallbackDataAtIndex(i); this._settlePromise(promise, handler, receiver, reason); } }; Promise.prototype._settlePromises = function () { var bitField = this._bitField; var len = (bitField & 65535); if (len > 0) { if (((bitField & 16842752) !== 0)) { var reason = this._fulfillmentHandler0; this._settlePromise0(this._rejectionHandler0, reason, bitField); this._rejectPromises(len, reason); } else { var value = this._rejectionHandler0; this._settlePromise0(this._fulfillmentHandler0, value, bitField); this._fulfillPromises(len, value); } this._setLength(0); } this._clearCancellationData(); }; Promise.prototype._settledValue = function() { var bitField = this._bitField; if (((bitField & 33554432) !== 0)) { return this._rejectionHandler0; } else if (((bitField & 16777216) !== 0)) { return this._fulfillmentHandler0; } }; function deferResolve(v) {this.promise._resolveCallback(v);} function deferReject(v) {this.promise._rejectCallback(v, false);} Promise.defer = Promise.pending = function() { debug.deprecated("Promise.defer", "new Promise"); var promise = new Promise(INTERNAL); return { promise: promise, resolve: deferResolve, reject: deferReject }; }; util.notEnumerableProp(Promise, "_makeSelfResolutionError", makeSelfResolutionError); _dereq_("./method")(Promise, INTERNAL, tryConvertToPromise, apiRejection, debug); _dereq_("./bind")(Promise, INTERNAL, tryConvertToPromise, debug); _dereq_("./cancel")(Promise, PromiseArray, apiRejection, debug); _dereq_("./direct_resolve")(Promise); _dereq_("./synchronous_inspection")(Promise); _dereq_("./join")( Promise, PromiseArray, tryConvertToPromise, INTERNAL, debug); Promise.Promise = Promise; _dereq_('./map.js')(Promise, PromiseArray, apiRejection, tryConvertToPromise, INTERNAL, debug); _dereq_('./call_get.js')(Promise); _dereq_('./using.js')(Promise, apiRejection, tryConvertToPromise, createContext, INTERNAL, debug); _dereq_('./timers.js')(Promise, INTERNAL, debug); _dereq_('./generators.js')(Promise, apiRejection, INTERNAL, tryConvertToPromise, Proxyable, debug); _dereq_('./nodeify.js')(Promise); _dereq_('./promisify.js')(Promise, INTERNAL); _dereq_('./props.js')(Promise, PromiseArray, tryConvertToPromise, apiRejection); _dereq_('./race.js')(Promise, INTERNAL, tryConvertToPromise, apiRejection); _dereq_('./reduce.js')(Promise, PromiseArray, apiRejection, tryConvertToPromise, INTERNAL, debug); _dereq_('./settle.js')(Promise, PromiseArray, debug); _dereq_('./some.js')(Promise, PromiseArray, apiRejection); _dereq_('./filter.js')(Promise, INTERNAL); _dereq_('./each.js')(Promise, INTERNAL); _dereq_('./any.js')(Promise); util.toFastProperties(Promise); util.toFastProperties(Promise.prototype); function fillTypes(value) { var p = new Promise(INTERNAL); p._fulfillmentHandler0 = value; p._rejectionHandler0 = value; p._promise0 = value; p._receiver0 = value; } // Complete slack tracking, opt out of field-type tracking and // stabilize map fillTypes({a: 1}); fillTypes({b: 2}); fillTypes({c: 3}); fillTypes(1); fillTypes(function(){}); fillTypes(undefined); fillTypes(false); fillTypes(new Promise(INTERNAL)); debug.setBounds(Async.firstLineError, util.lastLineError); return Promise; }; },{"./any.js":1,"./async":2,"./bind":3,"./call_get.js":5,"./cancel":6,"./catch_filter":7,"./context":8,"./debuggability":9,"./direct_resolve":10,"./each.js":11,"./errors":12,"./es5":13,"./filter.js":14,"./finally":15,"./generators.js":16,"./join":17,"./map.js":18,"./method":19,"./nodeback":20,"./nodeify.js":21,"./promise_array":23,"./promisify.js":24,"./props.js":25,"./race.js":27,"./reduce.js":28,"./settle.js":30,"./some.js":31,"./synchronous_inspection":32,"./thenables":33,"./timers.js":34,"./using.js":35,"./util":36}],23:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL, tryConvertToPromise, apiRejection, Proxyable) { var util = _dereq_("./util"); var isArray = util.isArray; function toResolutionValue(val) { switch(val) { case -2: return []; case -3: return {}; } } function PromiseArray(values) { var promise = this._promise = new Promise(INTERNAL); if (values instanceof Promise) { promise._propagateFrom(values, 3); } promise._setOnCancel(this); this._values = values; this._length = 0; this._totalResolved = 0; this._init(undefined, -2); } util.inherits(PromiseArray, Proxyable); PromiseArray.prototype.length = function () { return this._length; }; PromiseArray.prototype.promise = function () { return this._promise; }; PromiseArray.prototype._init = function init(_, resolveValueIfEmpty) { var values = tryConvertToPromise(this._values, this._promise); if (values instanceof Promise) { values = values._target(); var bitField = values._bitField; ; this._values = values; if (((bitField & 50397184) === 0)) { this._promise._setAsyncGuaranteed(); return values._then( init, this._reject, undefined, this, resolveValueIfEmpty ); } else if (((bitField & 33554432) !== 0)) { values = values._value(); } else if (((bitField & 16777216) !== 0)) { return this._reject(values._reason()); } else { return this._cancel(); } } values = util.asArray(values); if (values === null) { var err = apiRejection( "expecting an array or an iterable object but got " + util.classString(values)).reason(); this._promise._rejectCallback(err, false); return; } if (values.length === 0) { if (resolveValueIfEmpty === -5) { this._resolveEmptyArray(); } else { this._resolve(toResolutionValue(resolveValueIfEmpty)); } return; } this._iterate(values); }; PromiseArray.prototype._iterate = function(values) { var len = this.getActualLength(values.length); this._length = len; this._values = this.shouldCopyValues() ? new Array(len) : this._values; var result = this._promise; var isResolved = false; var bitField = null; for (var i = 0; i < len; ++i) { var maybePromise = tryConvertToPromise(values[i], result); if (maybePromise instanceof Promise) { maybePromise = maybePromise._target(); bitField = maybePromise._bitField; } else { bitField = null; } if (isResolved) { if (bitField !== null) { maybePromise.suppressUnhandledRejections(); } } else if (bitField !== null) { if (((bitField & 50397184) === 0)) { maybePromise._proxy(this, i); this._values[i] = maybePromise; } else if (((bitField & 33554432) !== 0)) { isResolved = this._promiseFulfilled(maybePromise._value(), i); } else if (((bitField & 16777216) !== 0)) { isResolved = this._promiseRejected(maybePromise._reason(), i); } else { isResolved = this._promiseCancelled(i); } } else { isResolved = this._promiseFulfilled(maybePromise, i); } } if (!isResolved) result._setAsyncGuaranteed(); }; PromiseArray.prototype._isResolved = function () { return this._values === null; }; PromiseArray.prototype._resolve = function (value) { this._values = null; this._promise._fulfill(value); }; PromiseArray.prototype._cancel = function() { if (this._isResolved() || !this._promise.isCancellable()) return; this._values = null; this._promise._cancel(); }; PromiseArray.prototype._reject = function (reason) { this._values = null; this._promise._rejectCallback(reason, false); }; PromiseArray.prototype._promiseFulfilled = function (value, index) { this._values[index] = value; var totalResolved = ++this._totalResolved; if (totalResolved >= this._length) { this._resolve(this._values); return true; } return false; }; PromiseArray.prototype._promiseCancelled = function() { this._cancel(); return true; }; PromiseArray.prototype._promiseRejected = function (reason) { this._totalResolved++; this._reject(reason); return true; }; PromiseArray.prototype._resultCancelled = function() { if (this._isResolved()) return; var values = this._values; this._cancel(); if (values instanceof Promise) { values.cancel(); } else { for (var i = 0; i < values.length; ++i) { if (values[i] instanceof Promise) { values[i].cancel(); } } } }; PromiseArray.prototype.shouldCopyValues = function () { return true; }; PromiseArray.prototype.getActualLength = function (len) { return len; }; return PromiseArray; }; },{"./util":36}],24:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL) { var THIS = {}; var util = _dereq_("./util"); var nodebackForPromise = _dereq_("./nodeback"); var withAppended = util.withAppended; var maybeWrapAsError = util.maybeWrapAsError; var canEvaluate = util.canEvaluate; var TypeError = _dereq_("./errors").TypeError; var defaultSuffix = "Async"; var defaultPromisified = {__isPromisified__: true}; var noCopyProps = [ "arity", "length", "name", "arguments", "caller", "callee", "prototype", "__isPromisified__" ]; var noCopyPropsPattern = new RegExp("^(?:" + noCopyProps.join("|") + ")$"); var defaultFilter = function(name) { return util.isIdentifier(name) && name.charAt(0) !== "_" && name !== "constructor"; }; function propsFilter(key) { return !noCopyPropsPattern.test(key); } function isPromisified(fn) { try { return fn.__isPromisified__ === true; } catch (e) { return false; } } function hasPromisified(obj, key, suffix) { var val = util.getDataPropertyOrDefault(obj, key + suffix, defaultPromisified); return val ? isPromisified(val) : false; } function checkValid(ret, suffix, suffixRegexp) { for (var i = 0; i < ret.length; i += 2) { var key = ret[i]; if (suffixRegexp.test(key)) { var keyWithoutAsyncSuffix = key.replace(suffixRegexp, ""); for (var j = 0; j < ret.length; j += 2) { if (ret[j] === keyWithoutAsyncSuffix) { throw new TypeError("Cannot promisify an API that has normal methods with '%s'-suffix\u000a\u000a See http://goo.gl/MqrFmX\u000a" .replace("%s", suffix)); } } } } } function promisifiableMethods(obj, suffix, suffixRegexp, filter) { var keys = util.inheritedDataKeys(obj); var ret = []; for (var i = 0; i < keys.length; ++i) { var key = keys[i]; var value = obj[key]; var passesDefaultFilter = filter === defaultFilter ? true : defaultFilter(key, value, obj); if (typeof value === "function" && !isPromisified(value) && !hasPromisified(obj, key, suffix) && filter(key, value, obj, passesDefaultFilter)) { ret.push(key, value); } } checkValid(ret, suffix, suffixRegexp); return ret; } var escapeIdentRegex = function(str) { return str.replace(/([$])/, "\\$"); }; var makeNodePromisifiedEval; if (false) { var switchCaseArgumentOrder = function(likelyArgumentCount) { var ret = [likelyArgumentCount]; var min = Math.max(0, likelyArgumentCount - 1 - 3); for(var i = likelyArgumentCount - 1; i >= min; --i) { ret.push(i); } for(var i = likelyArgumentCount + 1; i <= 3; ++i) { ret.push(i); } return ret; }; var argumentSequence = function(argumentCount) { return util.filledRange(argumentCount, "_arg", ""); }; var parameterDeclaration = function(parameterCount) { return util.filledRange( Math.max(parameterCount, 3), "_arg", ""); }; var parameterCount = function(fn) { if (typeof fn.length === "number") { return Math.max(Math.min(fn.length, 1023 + 1), 0); } return 0; }; makeNodePromisifiedEval = function(callback, receiver, originalName, fn, _, multiArgs) { var newParameterCount = Math.max(0, parameterCount(fn) - 1); var argumentOrder = switchCaseArgumentOrder(newParameterCount); var shouldProxyThis = typeof callback === "string" || receiver === THIS; function generateCallForArgumentCount(count) { var args = argumentSequence(count).join(", "); var comma = count > 0 ? ", " : ""; var ret; if (shouldProxyThis) { ret = "ret = callback.call(this, {{args}}, nodeback); break;\n"; } else { ret = receiver === undefined ? "ret = callback({{args}}, nodeback); break;\n" : "ret = callback.call(receiver, {{args}}, nodeback); break;\n"; } return ret.replace("{{args}}", args).replace(", ", comma); } function generateArgumentSwitchCase() { var ret = ""; for (var i = 0; i < argumentOrder.length; ++i) { ret += "case " + argumentOrder[i] +":" + generateCallForArgumentCount(argumentOrder[i]); } ret += " \n\ default: \n\ var args = new Array(len + 1); \n\ var i = 0; \n\ for (var i = 0; i < len; ++i) { \n\ args[i] = arguments[i]; \n\ } \n\ args[i] = nodeback; \n\ [CodeForCall] \n\ break; \n\ ".replace("[CodeForCall]", (shouldProxyThis ? "ret = callback.apply(this, args);\n" : "ret = callback.apply(receiver, args);\n")); return ret; } var getFunctionCode = typeof callback === "string" ? ("this != null ? this['"+callback+"'] : fn") : "fn"; var body = "'use strict'; \n\ var ret = function (Parameters) { \n\ 'use strict'; \n\ var len = arguments.length; \n\ var promise = new Promise(INTERNAL); \n\ promise._captureStackTrace(); \n\ var nodeback = nodebackForPromise(promise, " + multiArgs + "); \n\ var ret; \n\ var callback = tryCatch([GetFunctionCode]); \n\ switch(len) { \n\ [CodeForSwitchCase] \n\ } \n\ if (ret === errorObj) { \n\ promise._rejectCallback(maybeWrapAsError(ret.e), true, true);\n\ } \n\ if (!promise._isFateSealed()) promise._setAsyncGuaranteed(); \n\ return promise; \n\ }; \n\ notEnumerableProp(ret, '__isPromisified__', true); \n\ return ret; \n\ ".replace("[CodeForSwitchCase]", generateArgumentSwitchCase()) .replace("[GetFunctionCode]", getFunctionCode); body = body.replace("Parameters", parameterDeclaration(newParameterCount)); return new Function("Promise", "fn", "receiver", "withAppended", "maybeWrapAsError", "nodebackForPromise", "tryCatch", "errorObj", "notEnumerableProp", "INTERNAL", body)( Promise, fn, receiver, withAppended, maybeWrapAsError, nodebackForPromise, util.tryCatch, util.errorObj, util.notEnumerableProp, INTERNAL); }; } function makeNodePromisifiedClosure(callback, receiver, _, fn, __, multiArgs) { var defaultThis = (function() {return this;})(); var method = callback; if (typeof method === "string") { callback = fn; } function promisified() { var _receiver = receiver; if (receiver === THIS) _receiver = this; var promise = new Promise(INTERNAL); promise._captureStackTrace(); var cb = typeof method === "string" && this !== defaultThis ? this[method] : callback; var fn = nodebackForPromise(promise, multiArgs); try { cb.apply(_receiver, withAppended(arguments, fn)); } catch(e) { promise._rejectCallback(maybeWrapAsError(e), true, true); } if (!promise._isFateSealed()) promise._setAsyncGuaranteed(); return promise; } util.notEnumerableProp(promisified, "__isPromisified__", true); return promisified; } var makeNodePromisified = canEvaluate ? makeNodePromisifiedEval : makeNodePromisifiedClosure; function promisifyAll(obj, suffix, filter, promisifier, multiArgs) { var suffixRegexp = new RegExp(escapeIdentRegex(suffix) + "$"); var methods = promisifiableMethods(obj, suffix, suffixRegexp, filter); for (var i = 0, len = methods.length; i < len; i+= 2) { var key = methods[i]; var fn = methods[i+1]; var promisifiedKey = key + suffix; if (promisifier === makeNodePromisified) { obj[promisifiedKey] = makeNodePromisified(key, THIS, key, fn, suffix, multiArgs); } else { var promisified = promisifier(fn, function() { return makeNodePromisified(key, THIS, key, fn, suffix, multiArgs); }); util.notEnumerableProp(promisified, "__isPromisified__", true); obj[promisifiedKey] = promisified; } } util.toFastProperties(obj); return obj; } function promisify(callback, receiver, multiArgs) { return makeNodePromisified(callback, receiver, undefined, callback, null, multiArgs); } Promise.promisify = function (fn, options) { if (typeof fn !== "function") { throw new TypeError("expecting a function but got " + util.classString(fn)); } if (isPromisified(fn)) { return fn; } options = Object(options); var receiver = options.context === undefined ? THIS : options.context; var multiArgs = !!options.multiArgs; var ret = promisify(fn, receiver, multiArgs); util.copyDescriptors(fn, ret, propsFilter); return ret; }; Promise.promisifyAll = function (target, options) { if (typeof target !== "function" && typeof target !== "object") { throw new TypeError("the target of promisifyAll must be an object or a function\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } options = Object(options); var multiArgs = !!options.multiArgs; var suffix = options.suffix; if (typeof suffix !== "string") suffix = defaultSuffix; var filter = options.filter; if (typeof filter !== "function") filter = defaultFilter; var promisifier = options.promisifier; if (typeof promisifier !== "function") promisifier = makeNodePromisified; if (!util.isIdentifier(suffix)) { throw new RangeError("suffix must be a valid identifier\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } var keys = util.inheritedDataKeys(target); for (var i = 0; i < keys.length; ++i) { var value = target[keys[i]]; if (keys[i] !== "constructor" && util.isClass(value)) { promisifyAll(value.prototype, suffix, filter, promisifier, multiArgs); promisifyAll(value, suffix, filter, promisifier, multiArgs); } } return promisifyAll(target, suffix, filter, promisifier, multiArgs); }; }; },{"./errors":12,"./nodeback":20,"./util":36}],25:[function(_dereq_,module,exports){ "use strict"; module.exports = function( Promise, PromiseArray, tryConvertToPromise, apiRejection) { var util = _dereq_("./util"); var isObject = util.isObject; var es5 = _dereq_("./es5"); var Es6Map; if (typeof Map === "function") Es6Map = Map; var mapToEntries = (function() { var index = 0; var size = 0; function extractEntry(value, key) { this[index] = value; this[index + size] = key; index++; } return function mapToEntries(map) { size = map.size; index = 0; var ret = new Array(map.size * 2); map.forEach(extractEntry, ret); return ret; }; })(); var entriesToMap = function(entries) { var ret = new Es6Map(); var length = entries.length / 2 | 0; for (var i = 0; i < length; ++i) { var key = entries[length + i]; var value = entries[i]; ret.set(key, value); } return ret; }; function PropertiesPromiseArray(obj) { var isMap = false; var entries; if (Es6Map !== undefined && obj instanceof Es6Map) { entries = mapToEntries(obj); isMap = true; } else { var keys = es5.keys(obj); var len = keys.length; entries = new Array(len * 2); for (var i = 0; i < len; ++i) { var key = keys[i]; entries[i] = obj[key]; entries[i + len] = key; } } this.constructor$(entries); this._isMap = isMap; this._init$(undefined, -3); } util.inherits(PropertiesPromiseArray, PromiseArray); PropertiesPromiseArray.prototype._init = function () {}; PropertiesPromiseArray.prototype._promiseFulfilled = function (value, index) { this._values[index] = value; var totalResolved = ++this._totalResolved; if (totalResolved >= this._length) { var val; if (this._isMap) { val = entriesToMap(this._values); } else { val = {}; var keyOffset = this.length(); for (var i = 0, len = this.length(); i < len; ++i) { val[this._values[i + keyOffset]] = this._values[i]; } } this._resolve(val); return true; } return false; }; PropertiesPromiseArray.prototype.shouldCopyValues = function () { return false; }; PropertiesPromiseArray.prototype.getActualLength = function (len) { return len >> 1; }; function props(promises) { var ret; var castValue = tryConvertToPromise(promises); if (!isObject(castValue)) { return apiRejection("cannot await properties of a non-object\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } else if (castValue instanceof Promise) { ret = castValue._then( Promise.props, undefined, undefined, undefined, undefined); } else { ret = new PropertiesPromiseArray(castValue).promise(); } if (castValue instanceof Promise) { ret._propagateFrom(castValue, 2); } return ret; } Promise.prototype.props = function () { return props(this); }; Promise.props = function (promises) { return props(promises); }; }; },{"./es5":13,"./util":36}],26:[function(_dereq_,module,exports){ "use strict"; function arrayMove(src, srcIndex, dst, dstIndex, len) { for (var j = 0; j < len; ++j) { dst[j + dstIndex] = src[j + srcIndex]; src[j + srcIndex] = void 0; } } function Queue(capacity) { this._capacity = capacity; this._length = 0; this._front = 0; } Queue.prototype._willBeOverCapacity = function (size) { return this._capacity < size; }; Queue.prototype._pushOne = function (arg) { var length = this.length(); this._checkCapacity(length + 1); var i = (this._front + length) & (this._capacity - 1); this[i] = arg; this._length = length + 1; }; Queue.prototype._unshiftOne = function(value) { var capacity = this._capacity; this._checkCapacity(this.length() + 1); var front = this._front; var i = (((( front - 1 ) & ( capacity - 1) ) ^ capacity ) - capacity ); this[i] = value; this._front = i; this._length = this.length() + 1; }; Queue.prototype.unshift = function(fn, receiver, arg) { this._unshiftOne(arg); this._unshiftOne(receiver); this._unshiftOne(fn); }; Queue.prototype.push = function (fn, receiver, arg) { var length = this.length() + 3; if (this._willBeOverCapacity(length)) { this._pushOne(fn); this._pushOne(receiver); this._pushOne(arg); return; } var j = this._front + length - 3; this._checkCapacity(length); var wrapMask = this._capacity - 1; this[(j + 0) & wrapMask] = fn; this[(j + 1) & wrapMask] = receiver; this[(j + 2) & wrapMask] = arg; this._length = length; }; Queue.prototype.shift = function () { var front = this._front, ret = this[front]; this[front] = undefined; this._front = (front + 1) & (this._capacity - 1); this._length--; return ret; }; Queue.prototype.length = function () { return this._length; }; Queue.prototype._checkCapacity = function (size) { if (this._capacity < size) { this._resizeTo(this._capacity << 1); } }; Queue.prototype._resizeTo = function (capacity) { var oldCapacity = this._capacity; this._capacity = capacity; var front = this._front; var length = this._length; var moveItemsCount = (front + length) & (oldCapacity - 1); arrayMove(this, 0, this, oldCapacity, moveItemsCount); }; module.exports = Queue; },{}],27:[function(_dereq_,module,exports){ "use strict"; module.exports = function( Promise, INTERNAL, tryConvertToPromise, apiRejection) { var util = _dereq_("./util"); var raceLater = function (promise) { return promise.then(function(array) { return race(array, promise); }); }; function race(promises, parent) { var maybePromise = tryConvertToPromise(promises); if (maybePromise instanceof Promise) { return raceLater(maybePromise); } else { promises = util.asArray(promises); if (promises === null) return apiRejection("expecting an array or an iterable object but got " + util.classString(promises)); } var ret = new Promise(INTERNAL); if (parent !== undefined) { ret._propagateFrom(parent, 3); } var fulfill = ret._fulfill; var reject = ret._reject; for (var i = 0, len = promises.length; i < len; ++i) { var val = promises[i]; if (val === undefined && !(i in promises)) { continue; } Promise.cast(val)._then(fulfill, reject, undefined, ret, null); } return ret; } Promise.race = function (promises) { return race(promises, undefined); }; Promise.prototype.race = function () { return race(this, undefined); }; }; },{"./util":36}],28:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, PromiseArray, apiRejection, tryConvertToPromise, INTERNAL, debug) { var getDomain = Promise._getDomain; var util = _dereq_("./util"); var tryCatch = util.tryCatch; function ReductionPromiseArray(promises, fn, initialValue, _each) { this.constructor$(promises); var domain = getDomain(); this._fn = domain === null ? fn : domain.bind(fn); if (initialValue !== undefined) { initialValue = Promise.resolve(initialValue); initialValue._attachCancellationCallback(this); } this._initialValue = initialValue; this._currentCancellable = null; this._eachValues = _each === INTERNAL ? [] : undefined; this._promise._captureStackTrace(); this._init$(undefined, -5); } util.inherits(ReductionPromiseArray, PromiseArray); ReductionPromiseArray.prototype._gotAccum = function(accum) { if (this._eachValues !== undefined && accum !== INTERNAL) { this._eachValues.push(accum); } }; ReductionPromiseArray.prototype._eachComplete = function(value) { this._eachValues.push(value); return this._eachValues; }; ReductionPromiseArray.prototype._init = function() {}; ReductionPromiseArray.prototype._resolveEmptyArray = function() { this._resolve(this._eachValues !== undefined ? this._eachValues : this._initialValue); }; ReductionPromiseArray.prototype.shouldCopyValues = function () { return false; }; ReductionPromiseArray.prototype._resolve = function(value) { this._promise._resolveCallback(value); this._values = null; }; ReductionPromiseArray.prototype._resultCancelled = function(sender) { if (sender === this._initialValue) return this._cancel(); if (this._isResolved()) return; this._resultCancelled$(); if (this._currentCancellable instanceof Promise) { this._currentCancellable.cancel(); } if (this._initialValue instanceof Promise) { this._initialValue.cancel(); } }; ReductionPromiseArray.prototype._iterate = function (values) { this._values = values; var value; var i; var length = values.length; if (this._initialValue !== undefined) { value = this._initialValue; i = 0; } else { value = Promise.resolve(values[0]); i = 1; } this._currentCancellable = value; if (!value.isRejected()) { for (; i < length; ++i) { var ctx = { accum: null, value: values[i], index: i, length: length, array: this }; value = value._then(gotAccum, undefined, undefined, ctx, undefined); } } if (this._eachValues !== undefined) { value = value ._then(this._eachComplete, undefined, undefined, this, undefined); } value._then(completed, completed, undefined, value, this); }; Promise.prototype.reduce = function (fn, initialValue) { return reduce(this, fn, initialValue, null); }; Promise.reduce = function (promises, fn, initialValue, _each) { return reduce(promises, fn, initialValue, _each); }; function completed(valueOrReason, array) { if (this.isFulfilled()) { array._resolve(valueOrReason); } else { array._reject(valueOrReason); } } function reduce(promises, fn, initialValue, _each) { if (typeof fn !== "function") { return apiRejection("expecting a function but got " + util.classString(fn)); } var array = new ReductionPromiseArray(promises, fn, initialValue, _each); return array.promise(); } function gotAccum(accum) { this.accum = accum; this.array._gotAccum(accum); var value = tryConvertToPromise(this.value, this.array._promise); if (value instanceof Promise) { this.array._currentCancellable = value; return value._then(gotValue, undefined, undefined, this, undefined); } else { return gotValue.call(this, value); } } function gotValue(value) { var array = this.array; var promise = array._promise; var fn = tryCatch(array._fn); promise._pushContext(); var ret; if (array._eachValues !== undefined) { ret = fn.call(promise._boundValue(), value, this.index, this.length); } else { ret = fn.call(promise._boundValue(), this.accum, value, this.index, this.length); } if (ret instanceof Promise) { array._currentCancellable = ret; } var promiseCreated = promise._popContext(); debug.checkForgottenReturns( ret, promiseCreated, array._eachValues !== undefined ? "Promise.each" : "Promise.reduce", promise ); return ret; } }; },{"./util":36}],29:[function(_dereq_,module,exports){ "use strict"; var util = _dereq_("./util"); var schedule; var noAsyncScheduler = function() { throw new Error("No async scheduler available\u000a\u000a See http://goo.gl/MqrFmX\u000a"); }; var NativePromise = util.getNativePromise(); if (util.isNode && typeof MutationObserver === "undefined") { var GlobalSetImmediate = global.setImmediate; var ProcessNextTick = process.nextTick; schedule = util.isRecentNode ? function(fn) { GlobalSetImmediate.call(global, fn); } : function(fn) { ProcessNextTick.call(process, fn); }; } else if (typeof NativePromise === "function") { var nativePromise = NativePromise.resolve(); schedule = function(fn) { nativePromise.then(fn); }; } else if ((typeof MutationObserver !== "undefined") && !(typeof window !== "undefined" && window.navigator && window.navigator.standalone)) { schedule = (function() { var div = document.createElement("div"); var opts = {attributes: true}; var toggleScheduled = false; var div2 = document.createElement("div"); var o2 = new MutationObserver(function() { div.classList.toggle("foo"); toggleScheduled = false; }); o2.observe(div2, opts); var scheduleToggle = function() { if (toggleScheduled) return; toggleScheduled = true; div2.classList.toggle("foo"); }; return function schedule(fn) { var o = new MutationObserver(function() { o.disconnect(); fn(); }); o.observe(div, opts); scheduleToggle(); }; })(); } else if (typeof setImmediate !== "undefined") { schedule = function (fn) { setImmediate(fn); }; } else if (typeof setTimeout !== "undefined") { schedule = function (fn) { setTimeout(fn, 0); }; } else { schedule = noAsyncScheduler; } module.exports = schedule; },{"./util":36}],30:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, PromiseArray, debug) { var PromiseInspection = Promise.PromiseInspection; var util = _dereq_("./util"); function SettledPromiseArray(values) { this.constructor$(values); } util.inherits(SettledPromiseArray, PromiseArray); SettledPromiseArray.prototype._promiseResolved = function (index, inspection) { this._values[index] = inspection; var totalResolved = ++this._totalResolved; if (totalResolved >= this._length) { this._resolve(this._values); return true; } return false; }; SettledPromiseArray.prototype._promiseFulfilled = function (value, index) { var ret = new PromiseInspection(); ret._bitField = 33554432; ret._settledValueField = value; return this._promiseResolved(index, ret); }; SettledPromiseArray.prototype._promiseRejected = function (reason, index) { var ret = new PromiseInspection(); ret._bitField = 16777216; ret._settledValueField = reason; return this._promiseResolved(index, ret); }; Promise.settle = function (promises) { debug.deprecated(".settle()", ".reflect()"); return new SettledPromiseArray(promises).promise(); }; Promise.prototype.settle = function () { return Promise.settle(this); }; }; },{"./util":36}],31:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, PromiseArray, apiRejection) { var util = _dereq_("./util"); var RangeError = _dereq_("./errors").RangeError; var AggregateError = _dereq_("./errors").AggregateError; var isArray = util.isArray; var CANCELLATION = {}; function SomePromiseArray(values) { this.constructor$(values); this._howMany = 0; this._unwrap = false; this._initialized = false; } util.inherits(SomePromiseArray, PromiseArray); SomePromiseArray.prototype._init = function () { if (!this._initialized) { return; } if (this._howMany === 0) { this._resolve([]); return; } this._init$(undefined, -5); var isArrayResolved = isArray(this._values); if (!this._isResolved() && isArrayResolved && this._howMany > this._canPossiblyFulfill()) { this._reject(this._getRangeError(this.length())); } }; SomePromiseArray.prototype.init = function () { this._initialized = true; this._init(); }; SomePromiseArray.prototype.setUnwrap = function () { this._unwrap = true; }; SomePromiseArray.prototype.howMany = function () { return this._howMany; }; SomePromiseArray.prototype.setHowMany = function (count) { this._howMany = count; }; SomePromiseArray.prototype._promiseFulfilled = function (value) { this._addFulfilled(value); if (this._fulfilled() === this.howMany()) { this._values.length = this.howMany(); if (this.howMany() === 1 && this._unwrap) { this._resolve(this._values[0]); } else { this._resolve(this._values); } return true; } return false; }; SomePromiseArray.prototype._promiseRejected = function (reason) { this._addRejected(reason); return this._checkOutcome(); }; SomePromiseArray.prototype._promiseCancelled = function () { if (this._values instanceof Promise || this._values == null) { return this._cancel(); } this._addRejected(CANCELLATION); return this._checkOutcome(); }; SomePromiseArray.prototype._checkOutcome = function() { if (this.howMany() > this._canPossiblyFulfill()) { var e = new AggregateError(); for (var i = this.length(); i < this._values.length; ++i) { if (this._values[i] !== CANCELLATION) { e.push(this._values[i]); } } if (e.length > 0) { this._reject(e); } else { this._cancel(); } return true; } return false; }; SomePromiseArray.prototype._fulfilled = function () { return this._totalResolved; }; SomePromiseArray.prototype._rejected = function () { return this._values.length - this.length(); }; SomePromiseArray.prototype._addRejected = function (reason) { this._values.push(reason); }; SomePromiseArray.prototype._addFulfilled = function (value) { this._values[this._totalResolved++] = value; }; SomePromiseArray.prototype._canPossiblyFulfill = function () { return this.length() - this._rejected(); }; SomePromiseArray.prototype._getRangeError = function (count) { var message = "Input array must contain at least " + this._howMany + " items but contains only " + count + " items"; return new RangeError(message); }; SomePromiseArray.prototype._resolveEmptyArray = function () { this._reject(this._getRangeError(0)); }; function some(promises, howMany) { if ((howMany | 0) !== howMany || howMany < 0) { return apiRejection("expecting a positive integer\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } var ret = new SomePromiseArray(promises); var promise = ret.promise(); ret.setHowMany(howMany); ret.init(); return promise; } Promise.some = function (promises, howMany) { return some(promises, howMany); }; Promise.prototype.some = function (howMany) { return some(this, howMany); }; Promise._SomePromiseArray = SomePromiseArray; }; },{"./errors":12,"./util":36}],32:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise) { function PromiseInspection(promise) { if (promise !== undefined) { promise = promise._target(); this._bitField = promise._bitField; this._settledValueField = promise._isFateSealed() ? promise._settledValue() : undefined; } else { this._bitField = 0; this._settledValueField = undefined; } } PromiseInspection.prototype._settledValue = function() { return this._settledValueField; }; var value = PromiseInspection.prototype.value = function () { if (!this.isFulfilled()) { throw new TypeError("cannot get fulfillment value of a non-fulfilled promise\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } return this._settledValue(); }; var reason = PromiseInspection.prototype.error = PromiseInspection.prototype.reason = function () { if (!this.isRejected()) { throw new TypeError("cannot get rejection reason of a non-rejected promise\u000a\u000a See http://goo.gl/MqrFmX\u000a"); } return this._settledValue(); }; var isFulfilled = PromiseInspection.prototype.isFulfilled = function() { return (this._bitField & 33554432) !== 0; }; var isRejected = PromiseInspection.prototype.isRejected = function () { return (this._bitField & 16777216) !== 0; }; var isPending = PromiseInspection.prototype.isPending = function () { return (this._bitField & 50397184) === 0; }; var isResolved = PromiseInspection.prototype.isResolved = function () { return (this._bitField & 50331648) !== 0; }; PromiseInspection.prototype.isCancelled = Promise.prototype._isCancelled = function() { return (this._bitField & 65536) === 65536; }; Promise.prototype.isCancelled = function() { return this._target()._isCancelled(); }; Promise.prototype.isPending = function() { return isPending.call(this._target()); }; Promise.prototype.isRejected = function() { return isRejected.call(this._target()); }; Promise.prototype.isFulfilled = function() { return isFulfilled.call(this._target()); }; Promise.prototype.isResolved = function() { return isResolved.call(this._target()); }; Promise.prototype.value = function() { return value.call(this._target()); }; Promise.prototype.reason = function() { var target = this._target(); target._unsetRejectionIsUnhandled(); return reason.call(target); }; Promise.prototype._value = function() { return this._settledValue(); }; Promise.prototype._reason = function() { this._unsetRejectionIsUnhandled(); return this._settledValue(); }; Promise.PromiseInspection = PromiseInspection; }; },{}],33:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL) { var util = _dereq_("./util"); var errorObj = util.errorObj; var isObject = util.isObject; function tryConvertToPromise(obj, context) { if (isObject(obj)) { if (obj instanceof Promise) return obj; var then = getThen(obj); if (then === errorObj) { if (context) context._pushContext(); var ret = Promise.reject(then.e); if (context) context._popContext(); return ret; } else if (typeof then === "function") { if (isAnyBluebirdPromise(obj)) { var ret = new Promise(INTERNAL); obj._then( ret._fulfill, ret._reject, undefined, ret, null ); return ret; } return doThenable(obj, then, context); } } return obj; } function doGetThen(obj) { return obj.then; } function getThen(obj) { try { return doGetThen(obj); } catch (e) { errorObj.e = e; return errorObj; } } var hasProp = {}.hasOwnProperty; function isAnyBluebirdPromise(obj) { return hasProp.call(obj, "_promise0"); } function doThenable(x, then, context) { var promise = new Promise(INTERNAL); var ret = promise; if (context) context._pushContext(); promise._captureStackTrace(); if (context) context._popContext(); var synchronous = true; var result = util.tryCatch(then).call(x, resolve, reject); synchronous = false; if (promise && result === errorObj) { promise._rejectCallback(result.e, true, true); promise = null; } function resolve(value) { if (!promise) return; promise._resolveCallback(value); promise = null; } function reject(reason) { if (!promise) return; promise._rejectCallback(reason, synchronous, true); promise = null; } return ret; } return tryConvertToPromise; }; },{"./util":36}],34:[function(_dereq_,module,exports){ "use strict"; module.exports = function(Promise, INTERNAL, debug) { var util = _dereq_("./util"); var TimeoutError = Promise.TimeoutError; function HandleWrapper(handle) { this.handle = handle; } HandleWrapper.prototype._resultCancelled = function() { clearTimeout(this.handle); }; var afterValue = function(value) { return delay(+this).thenReturn(value); }; var delay = Promise.delay = function (ms, value) { var ret; var handle; if (value !== undefined) { ret = Promise.resolve(value) ._then(afterValue, null, null, ms, undefined); if (debug.cancellation() && value instanceof Promise) { ret._setOnCancel(value); } } else { ret = new Promise(INTERNAL); handle = setTimeout(function() { ret._fulfill(); }, +ms); if (debug.cancellation()) { ret._setOnCancel(new HandleWrapper(handle)); } } ret._setAsyncGuaranteed(); return ret; }; Promise.prototype.delay = function (ms) { return delay(ms, this); }; var afterTimeout = function (promise, message, parent) { var err; if (typeof message !== "string") { if (message instanceof Error) { err = message; } else { err = new TimeoutError("operation timed out"); } } else { err = new TimeoutError(message); } util.markAsOriginatingFromRejection(err); promise._attachExtraTrace(err); promise._reject(err); if (parent != null) { parent.cancel(); } }; function successClear(value) { clearTimeout(this.handle); return value; } function failureClear(reason) { clearTimeout(this.handle); throw reason; } Promise.prototype.timeout = function (ms, message) { ms = +ms; var ret, parent; var handleWrapper = new HandleWrapper(setTimeout(function timeoutTimeout() { if (ret.isPending()) { afterTimeout(ret, message, parent); } }, ms)); if (debug.cancellation()) { parent = this.then(); ret = parent._then(successClear, failureClear, undefined, handleWrapper, undefined); ret._setOnCancel(handleWrapper); } else { ret = this._then(successClear, failureClear, undefined, handleWrapper, undefined); } return ret; }; }; },{"./util":36}],35:[function(_dereq_,module,exports){ "use strict"; module.exports = function (Promise, apiRejection, tryConvertToPromise, createContext, INTERNAL, debug) { var util = _dereq_("./util"); var TypeError = _dereq_("./errors").TypeError; var inherits = _dereq_("./util").inherits; var errorObj = util.errorObj; var tryCatch = util.tryCatch; function thrower(e) { setTimeout(function(){throw e;}, 0); } function castPreservingDisposable(thenable) { var maybePromise = tryConvertToPromise(thenable); if (maybePromise !== thenable && typeof thenable._isDisposable === "function" && typeof thenable._getDisposer === "function" && thenable._isDisposable()) { maybePromise._setDisposable(thenable._getDisposer()); } return maybePromise; } function dispose(resources, inspection) { var i = 0; var len = resources.length; var ret = new Promise(INTERNAL); function iterator() { if (i >= len) return ret._fulfill(); var maybePromise = castPreservingDisposable(resources[i++]); if (maybePromise instanceof Promise && maybePromise._isDisposable()) { try { maybePromise = tryConvertToPromise( maybePromise._getDisposer().tryDispose(inspection), resources.promise); } catch (e) { return thrower(e); } if (maybePromise instanceof Promise) { return maybePromise._then(iterator, thrower, null, null, null); } } iterator(); } iterator(); return ret; } function Disposer(data, promise, context) { this._data = data; this._promise = promise; this._context = context; } Disposer.prototype.data = function () { return this._data; }; Disposer.prototype.promise = function () { return this._promise; }; Disposer.prototype.resource = function () { if (this.promise().isFulfilled()) { return this.promise().value(); } return null; }; Disposer.prototype.tryDispose = function(inspection) { var resource = this.resource(); var context = this._context; if (context !== undefined) context._pushContext(); var ret = resource !== null ? this.doDispose(resource, inspection) : null; if (context !== undefined) context._popContext(); this._promise._unsetDisposable(); this._data = null; return ret; }; Disposer.isDisposer = function (d) { return (d != null && typeof d.resource === "function" && typeof d.tryDispose === "function"); }; function FunctionDisposer(fn, promise, context) { this.constructor$(fn, promise, context); } inherits(FunctionDisposer, Disposer); FunctionDisposer.prototype.doDispose = function (resource, inspection) { var fn = this.data(); return fn.call(resource, resource, inspection); }; function maybeUnwrapDisposer(value) { if (Disposer.isDisposer(value)) { this.resources[this.index]._setDisposable(value); return value.promise(); } return value; } function ResourceList(length) { this.length = length; this.promise = null; this[length-1] = null; } ResourceList.prototype._resultCancelled = function() { var len = this.length; for (var i = 0; i < len; ++i) { var item = this[i]; if (item instanceof Promise) { item.cancel(); } } }; Promise.using = function () { var len = arguments.length; if (len < 2) return apiRejection( "you must pass at least 2 arguments to Promise.using"); var fn = arguments[len - 1]; if (typeof fn !== "function") { return apiRejection("expecting a function but got " + util.classString(fn)); } var input; var spreadArgs = true; if (len === 2 && Array.isArray(arguments[0])) { input = arguments[0]; len = input.length; spreadArgs = false; } else { input = arguments; len--; } var resources = new ResourceList(len); for (var i = 0; i < len; ++i) { var resource = input[i]; if (Disposer.isDisposer(resource)) { var disposer = resource; resource = resource.promise(); resource._setDisposable(disposer); } else { var maybePromise = tryConvertToPromise(resource); if (maybePromise instanceof Promise) { resource = maybePromise._then(maybeUnwrapDisposer, null, null, { resources: resources, index: i }, undefined); } } resources[i] = resource; } var reflectedResources = new Array(resources.length); for (var i = 0; i < reflectedResources.length; ++i) { reflectedResources[i] = Promise.resolve(resources[i]).reflect(); } var resultPromise = Promise.all(reflectedResources) .then(function(inspections) { for (var i = 0; i < inspections.length; ++i) { var inspection = inspections[i]; if (inspection.isRejected()) { errorObj.e = inspection.error(); return errorObj; } else if (!inspection.isFulfilled()) { resultPromise.cancel(); return; } inspections[i] = inspection.value(); } promise._pushContext(); fn = tryCatch(fn); var ret = spreadArgs ? fn.apply(undefined, inspections) : fn(inspections); var promiseCreated = promise._popContext(); debug.checkForgottenReturns( ret, promiseCreated, "Promise.using", promise); return ret; }); var promise = resultPromise.lastly(function() { var inspection = new Promise.PromiseInspection(resultPromise); return dispose(resources, inspection); }); resources.promise = promise; promise._setOnCancel(resources); return promise; }; Promise.prototype._setDisposable = function (disposer) { this._bitField = this._bitField | 131072; this._disposer = disposer; }; Promise.prototype._isDisposable = function () { return (this._bitField & 131072) > 0; }; Promise.prototype._getDisposer = function () { return this._disposer; }; Promise.prototype._unsetDisposable = function () { this._bitField = this._bitField & (~131072); this._disposer = undefined; }; Promise.prototype.disposer = function (fn) { if (typeof fn === "function") { return new FunctionDisposer(fn, this, createContext()); } throw new TypeError(); }; }; },{"./errors":12,"./util":36}],36:[function(_dereq_,module,exports){ "use strict"; var es5 = _dereq_("./es5"); var canEvaluate = typeof navigator == "undefined"; var errorObj = {e: {}}; var tryCatchTarget; var globalObject = typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : typeof global !== "undefined" ? global : this !== undefined ? this : null; function tryCatcher() { try { var target = tryCatchTarget; tryCatchTarget = null; return target.apply(this, arguments); } catch (e) { errorObj.e = e; return errorObj; } } function tryCatch(fn) { tryCatchTarget = fn; return tryCatcher; } var inherits = function(Child, Parent) { var hasProp = {}.hasOwnProperty; function T() { this.constructor = Child; this.constructor$ = Parent; for (var propertyName in Parent.prototype) { if (hasProp.call(Parent.prototype, propertyName) && propertyName.charAt(propertyName.length-1) !== "$" ) { this[propertyName + "$"] = Parent.prototype[propertyName]; } } } T.prototype = Parent.prototype; Child.prototype = new T(); return Child.prototype; }; function isPrimitive(val) { return val == null || val === true || val === false || typeof val === "string" || typeof val === "number"; } function isObject(value) { return typeof value === "function" || typeof value === "object" && value !== null; } function maybeWrapAsError(maybeError) { if (!isPrimitive(maybeError)) return maybeError; return new Error(safeToString(maybeError)); } function withAppended(target, appendee) { var len = target.length; var ret = new Array(len + 1); var i; for (i = 0; i < len; ++i) { ret[i] = target[i]; } ret[i] = appendee; return ret; } function getDataPropertyOrDefault(obj, key, defaultValue) { if (es5.isES5) { var desc = Object.getOwnPropertyDescriptor(obj, key); if (desc != null) { return desc.get == null && desc.set == null ? desc.value : defaultValue; } } else { return {}.hasOwnProperty.call(obj, key) ? obj[key] : undefined; } } function notEnumerableProp(obj, name, value) { if (isPrimitive(obj)) return obj; var descriptor = { value: value, configurable: true, enumerable: false, writable: true }; es5.defineProperty(obj, name, descriptor); return obj; } function thrower(r) { throw r; } var inheritedDataKeys = (function() { var excludedPrototypes = [ Array.prototype, Object.prototype, Function.prototype ]; var isExcludedProto = function(val) { for (var i = 0; i < excludedPrototypes.length; ++i) { if (excludedPrototypes[i] === val) { return true; } } return false; }; if (es5.isES5) { var getKeys = Object.getOwnPropertyNames; return function(obj) { var ret = []; var visitedKeys = Object.create(null); while (obj != null && !isExcludedProto(obj)) { var keys; try { keys = getKeys(obj); } catch (e) { return ret; } for (var i = 0; i < keys.length; ++i) { var key = keys[i]; if (visitedKeys[key]) continue; visitedKeys[key] = true; var desc = Object.getOwnPropertyDescriptor(obj, key); if (desc != null && desc.get == null && desc.set == null) { ret.push(key); } } obj = es5.getPrototypeOf(obj); } return ret; }; } else { var hasProp = {}.hasOwnProperty; return function(obj) { if (isExcludedProto(obj)) return []; var ret = []; /*jshint forin:false */ enumeration: for (var key in obj) { if (hasProp.call(obj, key)) { ret.push(key); } else { for (var i = 0; i < excludedPrototypes.length; ++i) { if (hasProp.call(excludedPrototypes[i], key)) { continue enumeration; } } ret.push(key); } } return ret; }; } })(); var thisAssignmentPattern = /this\s*\.\s*\S+\s*=/; function isClass(fn) { try { if (typeof fn === "function") { var keys = es5.names(fn.prototype); var hasMethods = es5.isES5 && keys.length > 1; var hasMethodsOtherThanConstructor = keys.length > 0 && !(keys.length === 1 && keys[0] === "constructor"); var hasThisAssignmentAndStaticMethods = thisAssignmentPattern.test(fn + "") && es5.names(fn).length > 0; if (hasMethods || hasMethodsOtherThanConstructor || hasThisAssignmentAndStaticMethods) { return true; } } return false; } catch (e) { return false; } } function toFastProperties(obj) { /*jshint -W027,-W055,-W031*/ function FakeConstructor() {} FakeConstructor.prototype = obj; var l = 8; while (l--) new FakeConstructor(); return obj; eval(obj); } var rident = /^[a-z$_][a-z$_0-9]*$/i; function isIdentifier(str) { return rident.test(str); } function filledRange(count, prefix, suffix) { var ret = new Array(count); for(var i = 0; i < count; ++i) { ret[i] = prefix + i + suffix; } return ret; } function safeToString(obj) { try { return obj + ""; } catch (e) { return "[no string representation]"; } } function isError(obj) { return obj !== null && typeof obj === "object" && typeof obj.message === "string" && typeof obj.name === "string"; } function markAsOriginatingFromRejection(e) { try { notEnumerableProp(e, "isOperational", true); } catch(ignore) {} } function originatesFromRejection(e) { if (e == null) return false; return ((e instanceof Error["__BluebirdErrorTypes__"].OperationalError) || e["isOperational"] === true); } function canAttachTrace(obj) { return isError(obj) && es5.propertyIsWritable(obj, "stack"); } var ensureErrorObject = (function() { if (!("stack" in new Error())) { return function(value) { if (canAttachTrace(value)) return value; try {throw new Error(safeToString(value));} catch(err) {return err;} }; } else { return function(value) { if (canAttachTrace(value)) return value; return new Error(safeToString(value)); }; } })(); function classString(obj) { return {}.toString.call(obj); } function copyDescriptors(from, to, filter) { var keys = es5.names(from); for (var i = 0; i < keys.length; ++i) { var key = keys[i]; if (filter(key)) { try { es5.defineProperty(to, key, es5.getDescriptor(from, key)); } catch (ignore) {} } } } var asArray = function(v) { if (es5.isArray(v)) { return v; } return null; }; if (typeof Symbol !== "undefined" && Symbol.iterator) { var ArrayFrom = typeof Array.from === "function" ? function(v) { return Array.from(v); } : function(v) { var ret = []; var it = v[Symbol.iterator](); var itResult; while (!((itResult = it.next()).done)) { ret.push(itResult.value); } return ret; }; asArray = function(v) { if (es5.isArray(v)) { return v; } else if (v != null && typeof v[Symbol.iterator] === "function") { return ArrayFrom(v); } return null; }; } var isNode = typeof process !== "undefined" && classString(process).toLowerCase() === "[object process]"; function env(key, def) { return isNode ? process.env[key] : def; } function getNativePromise() { if (typeof Promise === "function") { try { var promise = new Promise(function(){}); if ({}.toString.call(promise) === "[object Promise]") { return Promise; } } catch (e) {} } } var ret = { isClass: isClass, isIdentifier: isIdentifier, inheritedDataKeys: inheritedDataKeys, getDataPropertyOrDefault: getDataPropertyOrDefault, thrower: thrower, isArray: es5.isArray, asArray: asArray, notEnumerableProp: notEnumerableProp, isPrimitive: isPrimitive, isObject: isObject, isError: isError, canEvaluate: canEvaluate, errorObj: errorObj, tryCatch: tryCatch, inherits: inherits, withAppended: withAppended, maybeWrapAsError: maybeWrapAsError, toFastProperties: toFastProperties, filledRange: filledRange, toString: safeToString, canAttachTrace: canAttachTrace, ensureErrorObject: ensureErrorObject, originatesFromRejection: originatesFromRejection, markAsOriginatingFromRejection: markAsOriginatingFromRejection, classString: classString, copyDescriptors: copyDescriptors, hasDevTools: typeof chrome !== "undefined" && chrome && typeof chrome.loadTimes === "function", isNode: isNode, env: env, global: globalObject, getNativePromise: getNativePromise }; ret.isRecentNode = ret.isNode && (function() { var version = process.versions.node.split(".").map(Number); return (version[0] === 0 && version[1] > 10) || (version[0] > 0); })(); if (ret.isNode) ret.toFastProperties(process); try {throw new Error(); } catch (e) {ret.lastLineError = e;} module.exports = ret; },{"./es5":13}]},{},[4])(4) }); ;if (typeof window !== 'undefined' && window !== null) { window.P = window.Promise; } else if (typeof self !== 'undefined' && self !== null) { self.P = self.Promise; } /* WEBPACK VAR INJECTION */}.call(exports, __webpack_require__(2), __webpack_require__(1), (function() { return this; }()), __webpack_require__(3).setImmediate)) /***/ }, /* 2 */ /***/ function(module, exports) { 'use strict'; // shim for using process in browser var process = module.exports = {}; var queue = []; var draining = false; var currentQueue; var queueIndex = -1; function cleanUpNextTick() { draining = false; if (currentQueue.length) { queue = currentQueue.concat(queue); } else { queueIndex = -1; } if (queue.length) { drainQueue(); } } function drainQueue() { if (draining) { return; } var timeout = setTimeout(cleanUpNextTick); draining = true; var len = queue.length; while (len) { currentQueue = queue; queue = []; while (++queueIndex < len) { if (currentQueue) { currentQueue[queueIndex].run(); } } queueIndex = -1; len = queue.length; } currentQueue = null; draining = false; clearTimeout(timeout); } process.nextTick = function (fun) { var args = new Array(arguments.length - 1); if (arguments.length > 1) { for (var i = 1; i < arguments.length; i++) { args[i - 1] = arguments[i]; } } queue.push(new Item(fun, args)); if (queue.length === 1 && !draining) { setTimeout(drainQueue, 0); } }; // v8 likes predictible objects function Item(fun, array) { this.fun = fun; this.array = array; } Item.prototype.run = function () { this.fun.apply(null, this.array); }; process.title = 'browser'; process.browser = true; process.env = {}; process.argv = []; process.version = ''; // empty string to avoid regexp issues process.versions = {}; function noop() {} process.on = noop; process.addListener = noop; process.once = noop; process.off = noop; process.removeListener = noop; process.removeAllListeners = noop; process.emit = noop; process.binding = function (name) { throw new Error('process.binding is not supported'); }; process.cwd = function () { return '/'; }; process.chdir = function (dir) { throw new Error('process.chdir is not supported'); }; process.umask = function () { return 0; }; /***/ }, /* 3 */ /***/ function(module, exports, __webpack_require__) { /* WEBPACK VAR INJECTION */(function(setImmediate, clearImmediate) {"use strict"; var nextTick = __webpack_require__(2).nextTick; var apply = Function.prototype.apply; var slice = Array.prototype.slice; var immediateIds = {}; var nextImmediateId = 0; // DOM APIs, for completeness exports.setTimeout = function () { return new Timeout(apply.call(setTimeout, window, arguments), clearTimeout); }; exports.setInterval = function () { return new Timeout(apply.call(setInterval, window, arguments), clearInterval); }; exports.clearTimeout = exports.clearInterval = function (timeout) { timeout.close(); }; function Timeout(id, clearFn) { this._id = id; this._clearFn = clearFn; } Timeout.prototype.unref = Timeout.prototype.ref = function () {}; Timeout.prototype.close = function () { this._clearFn.call(window, this._id); }; // Does not start the time, just sets up the members needed. exports.enroll = function (item, msecs) { clearTimeout(item._idleTimeoutId); item._idleTimeout = msecs; }; exports.unenroll = function (item) { clearTimeout(item._idleTimeoutId); item._idleTimeout = -1; }; exports._unrefActive = exports.active = function (item) { clearTimeout(item._idleTimeoutId); var msecs = item._idleTimeout; if (msecs >= 0) { item._idleTimeoutId = setTimeout(function onTimeout() { if (item._onTimeout) item._onTimeout(); }, msecs); } }; // That's not how node.js implements it but the exposed api is the same. exports.setImmediate = typeof setImmediate === "function" ? setImmediate : function (fn) { var id = nextImmediateId++; var args = arguments.length < 2 ? false : slice.call(arguments, 1); immediateIds[id] = true; nextTick(function onNextTick() { if (immediateIds[id]) { // fn.call() is faster so we optimize for the common use-case // @see http://jsperf.com/call-apply-segu if (args) { fn.apply(null, args); } else { fn.call(null); } // Prevent ids from leaking exports.clearImmediate(id); } }); return id; }; exports.clearImmediate = typeof clearImmediate === "function" ? clearImmediate : function (id) { delete immediateIds[id]; }; /* WEBPACK VAR INJECTION */}.call(exports, __webpack_require__(3).setImmediate, __webpack_require__(3).clearImmediate)) /***/ }, /* 4 */, /* 5 */, /* 6 */, /* 7 */, /* 8 */, /* 9 */, /* 10 */, /* 11 */, /* 12 */, /* 13 */, /* 14 */, /* 15 */, /* 16 */, /* 17 */, /* 18 */, /* 19 */, /* 20 */, /* 21 */, /* 22 */, /* 23 */, /* 24 */, /* 25 */, /* 26 */, /* 27 */, /* 28 */, /* 29 */, /* 30 */, /* 31 */, /* 32 */, /* 33 */, /* 34 */, /* 35 */, /* 36 */, /* 37 */, /* 38 */, /* 39 */, /* 40 */, /* 41 */, /* 42 */, /* 43 */, /* 44 */, /* 45 */, /* 46 */, /* 47 */, /* 48 */, /* 49 */, /* 50 */, /* 51 */, /* 52 */, /* 53 */, /* 54 */, /* 55 */, /* 56 */, /* 57 */, /* 58 */, /* 59 */, /* 60 */, /* 61 */, /* 62 */, /* 63 */, /* 64 */, /* 65 */, /* 66 */, /* 67 */, /* 68 */, /* 69 */, /* 70 */, /* 71 */, /* 72 */, /* 73 */ /***/ function(module, exports, __webpack_require__) { /* WEBPACK VAR INJECTION */(function(global) {"use strict"; __webpack_require__(74); __webpack_require__(366); __webpack_require__(367); if (global._babelPolyfill) { throw new Error("only one instance of babel-polyfill is allowed"); } global._babelPolyfill = true; var DEFINE_PROPERTY = "defineProperty"; function define(O, key, value) { O[key] || Object[DEFINE_PROPERTY](O, key, { writable: true, configurable: true, value: value }); } define(String.prototype, "padLeft", "".padStart); define(String.prototype, "padRight", "".padEnd); "pop,reverse,shift,keys,values,entries,indexOf,every,some,forEach,map,filter,find,findIndex,includes,join,slice,concat,push,splice,unshift,sort,lastIndexOf,reduce,reduceRight,copyWithin,fill".split(",").forEach(function (key) { [][key] && define(Array, key, Function.call.bind([][key])); }); /* WEBPACK VAR INJECTION */}.call(exports, (function() { return this; }()))) /***/ }, /* 74 */ /***/ function(module, exports, __webpack_require__) { __webpack_require__(75); __webpack_require__(124); __webpack_require__(125); __webpack_require__(126); 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__webpack_require__(187); __webpack_require__(188); __webpack_require__(189); __webpack_require__(190); __webpack_require__(191); __webpack_require__(192); __webpack_require__(193); __webpack_require__(194); __webpack_require__(195); __webpack_require__(196); __webpack_require__(197); __webpack_require__(198); __webpack_require__(199); __webpack_require__(204); __webpack_require__(205); __webpack_require__(209); __webpack_require__(210); __webpack_require__(211); __webpack_require__(212); __webpack_require__(214); __webpack_require__(215); __webpack_require__(216); __webpack_require__(217); __webpack_require__(218); __webpack_require__(219); __webpack_require__(220); __webpack_require__(221); __webpack_require__(222); __webpack_require__(223); __webpack_require__(224); __webpack_require__(225); __webpack_require__(226); __webpack_require__(227); __webpack_require__(228); __webpack_require__(229); __webpack_require__(230); __webpack_require__(232); __webpack_require__(233); __webpack_require__(239); 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__webpack_require__(303); __webpack_require__(304); __webpack_require__(305); __webpack_require__(306); __webpack_require__(307); __webpack_require__(308); __webpack_require__(309); __webpack_require__(310); __webpack_require__(311); __webpack_require__(312); __webpack_require__(313); __webpack_require__(314); __webpack_require__(315); __webpack_require__(317); __webpack_require__(318); __webpack_require__(319); __webpack_require__(320); __webpack_require__(321); __webpack_require__(322); __webpack_require__(324); __webpack_require__(325); __webpack_require__(326); __webpack_require__(327); __webpack_require__(328); __webpack_require__(329); __webpack_require__(330); __webpack_require__(331); __webpack_require__(333); __webpack_require__(334); __webpack_require__(336); __webpack_require__(337); __webpack_require__(338); __webpack_require__(339); __webpack_require__(342); __webpack_require__(343); __webpack_require__(344); __webpack_require__(345); __webpack_require__(346); __webpack_require__(347); __webpack_require__(348); __webpack_require__(349); __webpack_require__(351); __webpack_require__(352); __webpack_require__(353); __webpack_require__(354); __webpack_require__(355); __webpack_require__(356); __webpack_require__(357); __webpack_require__(358); __webpack_require__(359); __webpack_require__(360); __webpack_require__(361); __webpack_require__(364); __webpack_require__(365); module.exports = __webpack_require__(81); /***/ }, /* 75 */ /***/ function(module, exports, __webpack_require__) { 'use strict'; // ECMAScript 6 symbols shim var global = __webpack_require__(76) , has = __webpack_require__(77) , DESCRIPTORS = __webpack_require__(78) , $export = __webpack_require__(80) , redefine = __webpack_require__(90) , META = __webpack_require__(94).KEY , $fails = __webpack_require__(79) , shared = __webpack_require__(95) , setToStringTag = __webpack_require__(96) , uid = __webpack_require__(91) , wks = __webpack_require__(97) , wksExt = __webpack_require__(98) , wksDefine = __webpack_require__(99) , keyOf = __webpack_require__(101) , enumKeys = __webpack_require__(114) , isArray = __webpack_require__(117) , anObject = __webpack_require__(84) , toIObject = __webpack_require__(104) , toPrimitive = __webpack_require__(88) , createDesc = __webpack_require__(89) , _create = __webpack_require__(118) , gOPNExt = __webpack_require__(121) , $GOPD = __webpack_require__(123) , $DP = __webpack_require__(83) , $keys = __webpack_require__(102) , gOPD = $GOPD.f , dP = $DP.f , gOPN = gOPNExt.f , $Symbol = global.Symbol , $JSON = global.JSON , _stringify = $JSON && $JSON.stringify , PROTOTYPE = 'prototype' , HIDDEN = wks('_hidden') , TO_PRIMITIVE = wks('toPrimitive') , isEnum = {}.propertyIsEnumerable , SymbolRegistry = shared('symbol-registry') , AllSymbols = shared('symbols') , OPSymbols = shared('op-symbols') , ObjectProto = Object[PROTOTYPE] , USE_NATIVE = typeof $Symbol == 'function' , QObject = global.QObject; // Don't use setters in Qt Script, https://github.com/zloirock/core-js/issues/173 var setter = !QObject || !QObject[PROTOTYPE] || !QObject[PROTOTYPE].findChild; // fallback for old Android, https://code.google.com/p/v8/issues/detail?id=687 var setSymbolDesc = DESCRIPTORS && $fails(function(){ return _create(dP({}, 'a', { get: function(){ return dP(this, 'a', {value: 7}).a; } })).a != 7; }) ? function(it, key, D){ var protoDesc = gOPD(ObjectProto, key); if(protoDesc)delete ObjectProto[key]; dP(it, key, D); if(protoDesc && it !== ObjectProto)dP(ObjectProto, key, protoDesc); } : dP; var wrap = function(tag){ var sym = AllSymbols[tag] = _create($Symbol[PROTOTYPE]); sym._k = tag; return sym; }; var isSymbol = USE_NATIVE && typeof $Symbol.iterator == 'symbol' ? function(it){ return typeof it == 'symbol'; } : function(it){ return it instanceof $Symbol; }; var $defineProperty = function defineProperty(it, key, D){ if(it === ObjectProto)$defineProperty(OPSymbols, key, D); anObject(it); key = toPrimitive(key, true); anObject(D); if(has(AllSymbols, key)){ if(!D.enumerable){ if(!has(it, HIDDEN))dP(it, HIDDEN, createDesc(1, {})); it[HIDDEN][key] = true; } else { if(has(it, HIDDEN) && it[HIDDEN][key])it[HIDDEN][key] = false; D = _create(D, {enumerable: createDesc(0, false)}); } return setSymbolDesc(it, key, D); } return dP(it, key, D); }; var $defineProperties = function defineProperties(it, P){ anObject(it); var keys = enumKeys(P = toIObject(P)) , i = 0 , l = keys.length , key; while(l > i)$defineProperty(it, key = keys[i++], P[key]); return it; }; var $create = function create(it, P){ return P === undefined ? _create(it) : $defineProperties(_create(it), P); }; var $propertyIsEnumerable = function propertyIsEnumerable(key){ var E = isEnum.call(this, key = toPrimitive(key, true)); if(this === ObjectProto && has(AllSymbols, key) && !has(OPSymbols, key))return false; return E || !has(this, key) || !has(AllSymbols, key) || has(this, HIDDEN) && this[HIDDEN][key] ? E : true; }; var $getOwnPropertyDescriptor = function getOwnPropertyDescriptor(it, key){ it = toIObject(it); key = toPrimitive(key, true); if(it === ObjectProto && has(AllSymbols, key) && !has(OPSymbols, key))return; var D = gOPD(it, key); if(D && has(AllSymbols, key) && !(has(it, HIDDEN) && it[HIDDEN][key]))D.enumerable = true; return D; }; var $getOwnPropertyNames = function getOwnPropertyNames(it){ var names = gOPN(toIObject(it)) , result = [] , i = 0 , key; while(names.length > i){ if(!has(AllSymbols, key = names[i++]) && key != HIDDEN && key != META)result.push(key); } return result; }; var $getOwnPropertySymbols = function getOwnPropertySymbols(it){ var IS_OP = it === ObjectProto , names = gOPN(IS_OP ? OPSymbols : toIObject(it)) , result = [] , i = 0 , key; while(names.length > i){ if(has(AllSymbols, key = names[i++]) && (IS_OP ? has(ObjectProto, key) : true))result.push(AllSymbols[key]); } return result; }; // 19.4.1.1 Symbol([description]) if(!USE_NATIVE){ $Symbol = function Symbol(){ if(this instanceof $Symbol)throw TypeError('Symbol is not a constructor!'); var tag = uid(arguments.length > 0 ? arguments[0] : undefined); var $set = function(value){ if(this === ObjectProto)$set.call(OPSymbols, value); if(has(this, HIDDEN) && has(this[HIDDEN], tag))this[HIDDEN][tag] = false; setSymbolDesc(this, tag, createDesc(1, value)); }; if(DESCRIPTORS && setter)setSymbolDesc(ObjectProto, tag, {configurable: true, set: $set}); return wrap(tag); }; redefine($Symbol[PROTOTYPE], 'toString', function toString(){ return this._k; }); $GOPD.f = $getOwnPropertyDescriptor; $DP.f = $defineProperty; __webpack_require__(122).f = gOPNExt.f = $getOwnPropertyNames; __webpack_require__(116).f = $propertyIsEnumerable; __webpack_require__(115).f = $getOwnPropertySymbols; if(DESCRIPTORS && !__webpack_require__(100)){ redefine(ObjectProto, 'propertyIsEnumerable', $propertyIsEnumerable, true); } wksExt.f = function(name){ return wrap(wks(name)); } } $export($export.G + $export.W + $export.F * !USE_NATIVE, {Symbol: $Symbol}); for(var symbols = ( // 19.4.2.2, 19.4.2.3, 19.4.2.4, 19.4.2.6, 19.4.2.8, 19.4.2.9, 19.4.2.10, 19.4.2.11, 19.4.2.12, 19.4.2.13, 19.4.2.14 'hasInstance,isConcatSpreadable,iterator,match,replace,search,species,split,toPrimitive,toStringTag,unscopables' ).split(','), i = 0; symbols.length > i; )wks(symbols[i++]); for(var symbols = $keys(wks.store), i = 0; symbols.length > i; )wksDefine(symbols[i++]); $export($export.S + $export.F * !USE_NATIVE, 'Symbol', { // 19.4.2.1 Symbol.for(key) 'for': function(key){ return has(SymbolRegistry, key += '') ? SymbolRegistry[key] : SymbolRegistry[key] = $Symbol(key); }, // 19.4.2.5 Symbol.keyFor(sym) keyFor: function keyFor(key){ if(isSymbol(key))return keyOf(SymbolRegistry, key); throw TypeError(key + ' is not a symbol!'); }, useSetter: function(){ setter = true; }, useSimple: function(){ setter = false; } }); $export($export.S + $export.F * !USE_NATIVE, 'Object', { // 19.1.2.2 Object.create(O [, Properties]) create: $create, // 19.1.2.4 Object.defineProperty(O, P, Attributes) defineProperty: $defineProperty, // 19.1.2.3 Object.defineProperties(O, Properties) defineProperties: $defineProperties, // 19.1.2.6 Object.getOwnPropertyDescriptor(O, P) getOwnPropertyDescriptor: $getOwnPropertyDescriptor, // 19.1.2.7 Object.getOwnPropertyNames(O) getOwnPropertyNames: $getOwnPropertyNames, // 19.1.2.8 Object.getOwnPropertySymbols(O) getOwnPropertySymbols: $getOwnPropertySymbols }); // 24.3.2 JSON.stringify(value [, replacer [, space]]) $JSON && $export($export.S + $export.F * (!USE_NATIVE || $fails(function(){ var S = $Symbol(); // MS Edge converts symbol values to JSON as {} // WebKit converts symbol values to JSON as null // V8 throws on boxed symbols return _stringify([S]) != '[null]' || _stringify({a: S}) != '{}' || _stringify(Object(S)) != '{}'; })), 'JSON', { stringify: function stringify(it){ if(it === undefined || isSymbol(it))return; // IE8 returns string on undefined var args = [it] , i = 1 , replacer, $replacer; while(arguments.length > i)args.push(arguments[i++]); replacer = args[1]; if(typeof replacer == 'function')$replacer = replacer; if($replacer || !isArray(replacer))replacer = function(key, value){ if($replacer)value = $replacer.call(this, key, value); if(!isSymbol(value))return value; }; args[1] = replacer; return _stringify.apply($JSON, args); } }); // 19.4.3.4 Symbol.prototype[@@toPrimitive](hint) $Symbol[PROTOTYPE][TO_PRIMITIVE] || __webpack_require__(82)($Symbol[PROTOTYPE], TO_PRIMITIVE, $Symbol[PROTOTYPE].valueOf); // 19.4.3.5 Symbol.prototype[@@toStringTag] setToStringTag($Symbol, 'Symbol'); // 20.2.1.9 Math[@@toStringTag] setToStringTag(Math, 'Math', true); // 24.3.3 JSON[@@toStringTag] setToStringTag(global.JSON, 'JSON', true); /***/ }, /* 76 */ /***/ function(module, exports) { // https://github.com/zloirock/core-js/issues/86#issuecomment-115759028 var global = module.exports = typeof window != 'undefined' && window.Math == Math ? window : typeof self != 'undefined' && self.Math == Math ? self : Function('return this')(); if(typeof __g == 'number')__g = global; // eslint-disable-line no-undef /***/ }, /* 77 */ /***/ function(module, exports) { var hasOwnProperty = {}.hasOwnProperty; module.exports = function(it, key){ return hasOwnProperty.call(it, key); }; /***/ }, /* 78 */ /***/ function(module, exports, __webpack_require__) { // Thank's IE8 for his funny defineProperty module.exports = !__webpack_require__(79)(function(){ return Object.defineProperty({}, 'a', {get: function(){ return 7; }}).a != 7; }); /***/ }, /* 79 */ /***/ function(module, exports) { module.exports = function(exec){ try { return !!exec(); } catch(e){ return true; } }; /***/ }, /* 80 */ /***/ function(module, exports, __webpack_require__) { var global = __webpack_require__(76) , core = __webpack_require__(81) , hide = __webpack_require__(82) , redefine = __webpack_require__(90) , ctx = __webpack_require__(92) , PROTOTYPE = 'prototype'; var $export = function(type, name, source){ var IS_FORCED = type & $export.F , IS_GLOBAL = type & $export.G , IS_STATIC = type & $export.S , IS_PROTO = type & $export.P , IS_BIND = type & $export.B , target = IS_GLOBAL ? global : IS_STATIC ? global[name] || (global[name] = {}) : (global[name] || {})[PROTOTYPE] , exports = IS_GLOBAL ? core : core[name] || (core[name] = {}) , expProto = exports[PROTOTYPE] || (exports[PROTOTYPE] = {}) , key, own, out, exp; if(IS_GLOBAL)source = name; for(key in source){ // contains in native own = !IS_FORCED && target && target[key] !== undefined; // export native or passed out = (own ? target : source)[key]; // bind timers to global for call from export context exp = IS_BIND && own ? ctx(out, global) : IS_PROTO && typeof out == 'function' ? ctx(Function.call, out) : out; // extend global if(target)redefine(target, key, out, type & $export.U); // export if(exports[key] != out)hide(exports, key, exp); if(IS_PROTO && expProto[key] != out)expProto[key] = out; } }; global.core = core; // type bitmap $export.F = 1; // forced $export.G = 2; // global $export.S = 4; // static $export.P = 8; // proto $export.B = 16; // bind $export.W = 32; // wrap $export.U = 64; // safe $export.R = 128; // real proto method for `library` module.exports = $export; /***/ }, /* 81 */ /***/ function(module, exports) { var core = module.exports = {version: '2.4.0'}; if(typeof __e == 'number')__e = core; // eslint-disable-line no-undef /***/ }, /* 82 */ /***/ function(module, exports, __webpack_require__) { var dP = __webpack_require__(83) , createDesc = __webpack_require__(89); module.exports = __webpack_require__(78) ? function(object, key, value){ return dP.f(object, key, createDesc(1, value)); } : function(object, key, value){ object[key] = value; return object; }; /***/ }, /* 83 */ /***/ function(module, exports, __webpack_require__) { var anObject = __webpack_require__(84) , IE8_DOM_DEFINE = __webpack_require__(86) , toPrimitive = __webpack_require__(88) , dP = Object.defineProperty; exports.f = __webpack_require__(78) ? Object.defineProperty : function defineProperty(O, P, Attributes){ anObject(O); P = toPrimitive(P, true); anObject(Attributes); if(IE8_DOM_DEFINE)try { return dP(O, P, Attributes); } catch(e){ /* empty */ } if('get' in Attributes || 'set' in Attributes)throw TypeError('Accessors not supported!'); if('value' in Attributes)O[P] = Attributes.value; return O; }; /***/ }, /* 84 */ /***/ function(module, exports, __webpack_require__) { var isObject = __webpack_require__(85); module.exports = function(it){ if(!isObject(it))throw TypeError(it + ' is not an object!'); return it; }; /***/ }, /* 85 */ /***/ function(module, exports) { module.exports = function(it){ return typeof it === 'object' ? it !== null : typeof it === 'function'; }; /***/ }, /* 86 */ /***/ function(module, exports, __webpack_require__) { module.exports = !__webpack_require__(78) && !__webpack_require__(79)(function(){ return Object.defineProperty(__webpack_require__(87)('div'), 'a', {get: function(){ return 7; }}).a != 7; }); /***/ }, /* 87 */ /***/ function(module, exports, __webpack_require__) { var isObject = __webpack_require__(85) , document = __webpack_require__(76).document // in old IE typeof document.createElement is 'object' , is = isObject(document) && isObject(document.createElement); module.exports = function(it){ return is ? document.createElement(it) : {}; }; /***/ }, /* 88 */ /***/ function(module, exports, __webpack_require__) { // 7.1.1 ToPrimitive(input [, PreferredType]) var isObject = __webpack_require__(85); // instead of the ES6 spec version, we didn't implement @@toPrimitive case // and the second argument - flag - preferred type is a string module.exports = function(it, S){ if(!isObject(it))return it; var fn, val; if(S && typeof (fn = it.toString) == 'function' && !isObject(val = fn.call(it)))return val; if(typeof (fn = it.valueOf) == 'function' && !isObject(val = fn.call(it)))return val; if(!S && typeof (fn = it.toString) == 'function' && !isObject(val = fn.call(it)))return val; throw TypeError("Can't convert object to primitive value"); }; /***/ }, /* 89 */ /***/ function(module, exports) { module.exports = function(bitmap, value){ return { enumerable : !(bitmap & 1), configurable: !(bitmap & 2), writable : !(bitmap & 4), value : value }; }; /***/ }, /* 90 */ /***/ function(module, exports, __webpack_require__) { var global = __webpack_require__(76) , hide = __webpack_require__(82) , has = __webpack_require__(77) , SRC = __webpack_require__(91)('src') , TO_STRING = 'toString' , $toString = Function[TO_STRING] , TPL = ('' + $toString).split(TO_STRING); __webpack_require__(81).inspectSource = function(it){ return $toString.call(it); }; (module.exports = function(O, key, val, safe){ var isFunction = typeof val == 'function'; if(isFunction)has(val, 'name') || hide(val, 'name', key); if(O[key] === val)return; if(isFunction)has(val, SRC) || hide(val, SRC, O[key] ? '' + O[key] : TPL.join(String(key))); if(O === global){ O[key] = val; } else { if(!safe){ delete O[key]; hide(O, key, val); } else { if(O[key])O[key] = val; else hide(O, key, val); } } // add fake Function#toString for correct work wrapped methods / constructors with methods like LoDash isNative })(Function.prototype, TO_STRING, function toString(){ return typeof this == 'function' && this[SRC] || $toString.call(this); }); /***/ }, /* 91 */ /***/ function(module, exports) { var id = 0 , px = Math.random(); module.exports = function(key){ return 'Symbol('.concat(key === undefined ? '' : key, ')_', (++id + px).toString(36)); }; /***/ }, /* 92 */ /***/ function(module, exports, __webpack_require__) { // optional / simple context binding var aFunction = __webpack_require__(93); module.exports = function(fn, that, length){ aFunction(fn); if(that === undefined)return fn; switch(length){ case 1: return function(a){ return fn.call(that, a); }; case 2: return function(a, b){ return fn.call(that, a, b); }; case 3: return function(a, b, c){ return fn.call(that, a, b, c); }; } return function(/* ...args */){ return fn.apply(that, arguments); }; }; /***/ }, /* 93 */ /***/ function(module, exports) { module.exports = function(it){ if(typeof it != 'function')throw TypeError(it + ' is not a function!'); return it; }; /***/ }, /* 94 */ /***/ function(module, exports, __webpack_require__) { var META = __webpack_require__(91)('meta') , isObject = __webpack_require__(85) , has = __webpack_require__(77) , setDesc = __webpack_require__(83).f , id = 0; var isExtensible = Object.isExtensible || function(){ return true; }; var FREEZE = !__webpack_require__(79)(function(){ return isExtensible(Object.preventExtensions({})); }); var setMeta = function(it){ setDesc(it, META, {value: { i: 'O' + ++id, // object ID w: {} // weak collections IDs }}); }; var fastKey = function(it, create){ // return primitive with prefix if(!isObject(it))return typeof it == 'symbol' ? it : (typeof it == 'string' ? 'S' : 'P') + it; if(!has(it, META)){ // can't set metadata to uncaught frozen object if(!isExtensible(it))return 'F'; // not necessary to add metadata if(!create)return 'E'; // add missing metadata setMeta(it); // return object ID } return it[META].i; }; var getWeak = function(it, create){ if(!has(it, META)){ // can't set metadata to uncaught frozen object if(!isExtensible(it))return true; // not necessary to add metadata if(!create)return false; // add missing metadata setMeta(it); // return hash weak collections IDs } return it[META].w; }; // add metadata on freeze-family methods calling var onFreeze = function(it){ if(FREEZE && meta.NEED && isExtensible(it) && !has(it, META))setMeta(it); return it; }; var meta = module.exports = { KEY: META, NEED: false, fastKey: fastKey, getWeak: getWeak, onFreeze: onFreeze }; /***/ }, /* 95 */ /***/ function(module, exports, __webpack_require__) { var global = __webpack_require__(76) , SHARED = '__core-js_shared__' , store = global[SHARED] || (global[SHARED] = {}); module.exports = function(key){ return store[key] || (store[key] = {}); }; /***/ }, /* 96 */ /***/ function(module, exports, __webpack_require__) { var def = __webpack_require__(83).f , has = __webpack_require__(77) , TAG = __webpack_require__(97)('toStringTag'); module.exports = function(it, tag, stat){ if(it && !has(it = stat ? it : it.prototype, TAG))def(it, TAG, {configurable: true, value: tag}); }; /***/ }, /* 97 */ /***/ function(module, exports, __webpack_require__) { var store = __webpack_require__(95)('wks') , uid = __webpack_require__(91) , Symbol = __webpack_require__(76).Symbol , USE_SYMBOL = typeof Symbol == 'function'; var $exports = module.exports = function(name){ return store[name] || (store[name] = USE_SYMBOL && Symbol[name] || (USE_SYMBOL ? Symbol : uid)('Symbol.' + name)); }; $exports.store = store; /***/ }, /* 98 */ /***/ function(module, exports, __webpack_require__) { exports.f = __webpack_require__(97); /***/ }, /* 99 */ /***/ function(module, exports, __webpack_require__) { var global = __webpack_require__(76) , core = __webpack_require__(81) , LIBRARY = __webpack_require__(100) , wksExt = __webpack_require__(98) , defineProperty = __webpack_require__(83).f; module.exports = function(name){ var $Symbol = core.Symbol || (core.Symbol = LIBRARY ? {} : global.Symbol || {}); if(name.charAt(0) != '_' && !(name in $Symbol))defineProperty($Symbol, name, {value: wksExt.f(name)}); }; /***/ }, /* 100 */ /***/ function(module, exports) { "use strict"; module.exports = false; /***/ }, /* 101 */ /***/ function(module, exports, __webpack_require__) { var getKeys = __webpack_require__(102) , toIObject = __webpack_require__(104); module.exports = function(object, el){ var O = toIObject(object) , keys = getKeys(O) , length = keys.length , index = 0 , key; while(length > index)if(O[key = keys[index++]] === el)return key; }; /***/ }, /* 102 */ /***/ function(module, exports, __webpack_require__) { // 19.1.2.14 / 15.2.3.14 Object.keys(O) var $keys = __webpack_require__(103) , enumBugKeys = __webpack_require__(113); module.exports = Object.keys || function keys(O){ return $keys(O, enumBugKeys); }; /***/ }, /* 103 */ /***/ function(module, exports, __webpack_require__) { var has = __webpack_require__(77) , toIObject = __webpack_require__(104) , arrayIndexOf = __webpack_require__(108)(false) , IE_PROTO = __webpack_require__(112)('IE_PROTO'); module.exports = function(object, names){ var O = toIObject(object) , i = 0 , result = [] , key; for(key in O)if(key != IE_PROTO)has(O, key) && result.push(key); // Don't enum bug & hidden keys while(names.length > i)if(has(O, key = names[i++])){ ~arrayIndexOf(result, key) || result.push(key); } return result; }; /***/ }, /* 104 */ /***/ function(module, exports, __webpack_require__) { // to indexed object, toObject with fallback for non-array-like ES3 strings var IObject = __webpack_require__(105) , defined = __webpack_require__(107); module.exports = function(it){ return IObject(defined(it)); }; /***/ }, /* 105 */ /***/ function(module, exports, __webpack_require__) { // fallback for non-array-like ES3 and non-enumerable old V8 strings var cof = __webpack_require__(106); module.exports = Object('z').propertyIsEnumerable(0) ? Object : function(it){ return cof(it) == 'String' ? it.split('') : Object(it); }; /***/ }, /* 106 */ /***/ function(module, exports) { var toString = {}.toString; module.exports = function(it){ return toString.call(it).slice(8, -1); }; /***/ }, /* 107 */ /***/ function(module, exports) { // 7.2.1 RequireObjectCoercible(argument) module.exports = function(it){ if(it == undefined)throw TypeError("Can't call method on " + it); return it; }; /***/ }, /* 108 */ /***/ function(module, exports, __webpack_require__) { // false -> Array#indexOf // true -> Array#includes var toIObject = __webpack_require__(104) , toLength = __webpack_require__(109) , toIndex = __webpack_require__(111); module.exports = function(IS_INCLUDES){ return function($this, el, fromIndex){ var O = toIObject($this) , length = toLength(O.length) , index = toIndex(fromIndex, length) , value; // Array#includes uses SameValueZero equality algorithm if(IS_INCLUDES && el != el)while(length > index){ value = O[index++]; if(value != value)return true; // Array#toIndex ignores holes, Array#includes - not } else for(;length > index; index++)if(IS_INCLUDES || index in O){ if(O[index] === el)return IS_INCLUDES || index || 0; } return !IS_INCLUDES && -1; }; }; /***/ }, /* 109 */ /***/ function(module, exports, __webpack_require__) { // 7.1.15 ToLength var toInteger = __webpack_require__(110) , min = Math.min; module.exports = function(it){ return it > 0 ? min(toInteger(it), 0x1fffffffffffff) : 0; // pow(2, 53) - 1 == 9007199254740991 }; /***/ }, /* 110 */ /***/ function(module, exports) { // 7.1.4 ToInteger var ceil = Math.ceil , floor = Math.floor; module.exports = function(it){ return isNaN(it = +it) ? 0 : (it > 0 ? floor : ceil)(it); }; /***/ }, /* 111 */ /***/ function(module, exports, __webpack_require__) { var toInteger = __webpack_require__(110) , max = Math.max , min = Math.min; module.exports = function(index, length){ index = toInteger(index); return index < 0 ? max(index + length, 0) : min(index, length); }; /***/ }, /* 112 */ /***/ function(module, exports, __webpack_require__) { var shared = __webpack_require__(95)('keys') , uid = __webpack_require__(91); module.exports = function(key){ return shared[key] || (shared[key] = uid(key)); }; /***/ }, /* 113 */ /***/ function(module, exports) { // IE 8- don't enum bug keys module.exports = ( 'constructor,hasOwnProperty,isPrototypeOf,propertyIsEnumerable,toLocaleString,toString,valueOf' ).split(','); /***/ }, /* 114 */ /***/ function(module, exports, __webpack_require__) { // all enumerable object keys, includes symbols var getKeys = __webpack_require__(102) , gOPS = __webpack_require__(115) , pIE = __webpack_require__(116); module.exports = function(it){ var result = getKeys(it) , getSymbols = gOPS.f; if(getSymbols){ var symbols = getSymbols(it) , isEnum = pIE.f , i = 0 , key; while(symbols.length > i)if(isEnum.call(it, key = symbols[i++]))result.push(key); } return result; }; /***/ }, /* 115 */ /***/ function(module, exports) { exports.f = Object.getOwnPropertySymbols; /***/ }, /* 116 */ /***/ function(module, exports) { exports.f = {}.propertyIsEnumerable; /***/ }, /* 117 */ /***/ function(module, exports, __webpack_require__) { // 7.2.2 IsArray(argument) var cof = __webpack_require__(106); module.exports = Array.isArray || function isArray(arg){ return cof(arg) == 'Array'; }; /***/ }, /* 118 */ /***/ function(module, exports, __webpack_require__) { // 19.1.2.2 / 15.2.3.5 Object.create(O [, Properties]) var anObject = __webpack_require__(84) , dPs = __webpack_require__(119) , enumBugKeys = __webpack_require__(113) , IE_PROTO = __webpack_require__(112)('IE_PROTO') , Empty = function(){ /* empty */ } , PROTOTYPE = 'prototype'; // Create object with fake `null` prototype: use iframe Object with cleared prototype var createDict = function(){ // Thrash, waste and sodomy: IE GC bug var iframe = __webpack_require__(87)('iframe') , i = enumBugKeys.length , gt = '>' , iframeDocument; iframe.style.display = 'none'; __webpack_require__(120).appendChild(iframe); iframe.src = 'javascript:'; // eslint-disable-line no-script-url // createDict = iframe.contentWindow.Object; // html.removeChild(iframe); iframeDocument = iframe.contentWindow.document; iframeDocument.open(); iframeDocument.write(' * * * * ``` * * @param {DOMElement} element DOM element which is the root of angular application. * @param {Array=} modules an array of modules to load into the application. * Each item in the array should be the name of a predefined module or a (DI annotated) * function that will be invoked by the injector as a `config` block. * See: {@link angular.module modules} * @param {Object=} config an object for defining configuration options for the application. The * following keys are supported: * * * `strictDi` - disable automatic function annotation for the application. This is meant to * assist in finding bugs which break minified code. Defaults to `false`. * * @returns {auto.$injector} Returns the newly created injector for this app. */ function bootstrap(element, modules, config) { if (!isObject(config)) config = {}; var defaultConfig = { strictDi: false }; config = extend(defaultConfig, config); var doBootstrap = function() { element = jqLite(element); if (element.injector()) { var tag = (element[0] === window.document) ? 'document' : startingTag(element); // Encode angle brackets to prevent input from being sanitized to empty string #8683. throw ngMinErr( 'btstrpd', "App already bootstrapped with this element '{0}'", tag.replace(//,'>')); } modules = modules || []; modules.unshift(['$provide', function($provide) { $provide.value('$rootElement', element); }]); if (config.debugInfoEnabled) { // Pushing so that this overrides `debugInfoEnabled` setting defined in user's `modules`. modules.push(['$compileProvider', function($compileProvider) { $compileProvider.debugInfoEnabled(true); }]); } modules.unshift('ng'); var injector = createInjector(modules, config.strictDi); injector.invoke(['$rootScope', '$rootElement', '$compile', '$injector', function bootstrapApply(scope, element, compile, injector) { scope.$apply(function() { element.data('$injector', injector); compile(element)(scope); }); }] ); return injector; }; var NG_ENABLE_DEBUG_INFO = /^NG_ENABLE_DEBUG_INFO!/; var NG_DEFER_BOOTSTRAP = /^NG_DEFER_BOOTSTRAP!/; if (window && NG_ENABLE_DEBUG_INFO.test(window.name)) { config.debugInfoEnabled = true; window.name = window.name.replace(NG_ENABLE_DEBUG_INFO, ''); } if (window && !NG_DEFER_BOOTSTRAP.test(window.name)) { return doBootstrap(); } window.name = window.name.replace(NG_DEFER_BOOTSTRAP, ''); angular.resumeBootstrap = function(extraModules) { forEach(extraModules, function(module) { modules.push(module); }); return doBootstrap(); }; if (isFunction(angular.resumeDeferredBootstrap)) { angular.resumeDeferredBootstrap(); } } /** * @ngdoc function * @name angular.reloadWithDebugInfo * @module ng * @description * Use this function to reload the current application with debug information turned on. * This takes precedence over a call to `$compileProvider.debugInfoEnabled(false)`. * * See {@link ng.$compileProvider#debugInfoEnabled} for more. */ function reloadWithDebugInfo() { window.name = 'NG_ENABLE_DEBUG_INFO!' + window.name; window.location.reload(); } /** * @name angular.getTestability * @module ng * @description * Get the testability service for the instance of Angular on the given * element. * @param {DOMElement} element DOM element which is the root of angular application. */ function getTestability(rootElement) { var injector = angular.element(rootElement).injector(); if (!injector) { throw ngMinErr('test', 'no injector found for element argument to getTestability'); } return injector.get('$$testability'); } var SNAKE_CASE_REGEXP = /[A-Z]/g; function snake_case(name, separator) { separator = separator || '_'; return name.replace(SNAKE_CASE_REGEXP, function(letter, pos) { return (pos ? separator : '') + letter.toLowerCase(); }); } var bindJQueryFired = false; function bindJQuery() { var originalCleanData; if (bindJQueryFired) { return; } // bind to jQuery if present; var jqName = jq(); jQuery = isUndefined(jqName) ? window.jQuery : // use jQuery (if present) !jqName ? undefined : // use jqLite window[jqName]; // use jQuery specified by `ngJq` // Use jQuery if it exists with proper functionality, otherwise default to us. // Angular 1.2+ requires jQuery 1.7+ for on()/off() support. // Angular 1.3+ technically requires at least jQuery 2.1+ but it may work with older // versions. It will not work for sure with jQuery <1.7, though. if (jQuery && jQuery.fn.on) { jqLite = jQuery; extend(jQuery.fn, { scope: JQLitePrototype.scope, isolateScope: JQLitePrototype.isolateScope, controller: JQLitePrototype.controller, injector: JQLitePrototype.injector, inheritedData: JQLitePrototype.inheritedData }); // All nodes removed from the DOM via various jQuery APIs like .remove() // are passed through jQuery.cleanData. Monkey-patch this method to fire // the $destroy event on all removed nodes. originalCleanData = jQuery.cleanData; jQuery.cleanData = function(elems) { var events; for (var i = 0, elem; (elem = elems[i]) != null; i++) { events = jQuery._data(elem, "events"); if (events && events.$destroy) { jQuery(elem).triggerHandler('$destroy'); } } originalCleanData(elems); }; } else { jqLite = JQLite; } angular.element = jqLite; // Prevent double-proxying. bindJQueryFired = true; } /** * throw error if the argument is falsy. */ function assertArg(arg, name, reason) { if (!arg) { throw ngMinErr('areq', "Argument '{0}' is {1}", (name || '?'), (reason || "required")); } return arg; } function assertArgFn(arg, name, acceptArrayAnnotation) { if (acceptArrayAnnotation && isArray(arg)) { arg = arg[arg.length - 1]; } assertArg(isFunction(arg), name, 'not a function, got ' + (arg && typeof arg === 'object' ? arg.constructor.name || 'Object' : typeof arg)); return arg; } /** * throw error if the name given is hasOwnProperty * @param {String} name the name to test * @param {String} context the context in which the name is used, such as module or directive */ function assertNotHasOwnProperty(name, context) { if (name === 'hasOwnProperty') { throw ngMinErr('badname', "hasOwnProperty is not a valid {0} name", context); } } /** * Return the value accessible from the object by path. Any undefined traversals are ignored * @param {Object} obj starting object * @param {String} path path to traverse * @param {boolean} [bindFnToScope=true] * @returns {Object} value as accessible by path */ //TODO(misko): this function needs to be removed function getter(obj, path, bindFnToScope) { if (!path) return obj; var keys = path.split('.'); var key; var lastInstance = obj; var len = keys.length; for (var i = 0; i < len; i++) { key = keys[i]; if (obj) { obj = (lastInstance = obj)[key]; } } if (!bindFnToScope && isFunction(obj)) { return bind(lastInstance, obj); } return obj; } /** * Return the DOM siblings between the first and last node in the given array. * @param {Array} array like object * @returns {Array} the inputted object or a jqLite collection containing the nodes */ function getBlockNodes(nodes) { // TODO(perf): update `nodes` instead of creating a new object? var node = nodes[0]; var endNode = nodes[nodes.length - 1]; var blockNodes; for (var i = 1; node !== endNode && (node = node.nextSibling); i++) { if (blockNodes || nodes[i] !== node) { if (!blockNodes) { blockNodes = jqLite(slice.call(nodes, 0, i)); } blockNodes.push(node); } } return blockNodes || nodes; } /** * Creates a new object without a prototype. This object is useful for lookup without having to * guard against prototypically inherited properties via hasOwnProperty. * * Related micro-benchmarks: * - http://jsperf.com/object-create2 * - http://jsperf.com/proto-map-lookup/2 * - http://jsperf.com/for-in-vs-object-keys2 * * @returns {Object} */ function createMap() { return Object.create(null); } var NODE_TYPE_ELEMENT = 1; var NODE_TYPE_ATTRIBUTE = 2; var NODE_TYPE_TEXT = 3; var NODE_TYPE_COMMENT = 8; var NODE_TYPE_DOCUMENT = 9; var NODE_TYPE_DOCUMENT_FRAGMENT = 11; /** * @ngdoc type * @name angular.Module * @module ng * @description * * Interface for configuring angular {@link angular.module modules}. */ function setupModuleLoader(window) { var $injectorMinErr = minErr('$injector'); var ngMinErr = minErr('ng'); function ensure(obj, name, factory) { return obj[name] || (obj[name] = factory()); } var angular = ensure(window, 'angular', Object); // We need to expose `angular.$$minErr` to modules such as `ngResource` that reference it during bootstrap angular.$$minErr = angular.$$minErr || minErr; return ensure(angular, 'module', function() { /** @type {Object.} */ var modules = {}; /** * @ngdoc function * @name angular.module * @module ng * @description * * The `angular.module` is a global place for creating, registering and retrieving Angular * modules. * All modules (angular core or 3rd party) that should be available to an application must be * registered using this mechanism. * * Passing one argument retrieves an existing {@link angular.Module}, * whereas passing more than one argument creates a new {@link angular.Module} * * * # Module * * A module is a collection of services, directives, controllers, filters, and configuration information. * `angular.module` is used to configure the {@link auto.$injector $injector}. * * ```js * // Create a new module * var myModule = angular.module('myModule', []); * * // register a new service * myModule.value('appName', 'MyCoolApp'); * * // configure existing services inside initialization blocks. * myModule.config(['$locationProvider', function($locationProvider) { * // Configure existing providers * $locationProvider.hashPrefix('!'); * }]); * ``` * * Then you can create an injector and load your modules like this: * * ```js * var injector = angular.injector(['ng', 'myModule']) * ``` * * However it's more likely that you'll just use * {@link ng.directive:ngApp ngApp} or * {@link angular.bootstrap} to simplify this process for you. * * @param {!string} name The name of the module to create or retrieve. * @param {!Array.=} requires If specified then new module is being created. If * unspecified then the module is being retrieved for further configuration. * @param {Function=} configFn Optional configuration function for the module. Same as * {@link angular.Module#config Module#config()}. * @returns {angular.Module} new module with the {@link angular.Module} api. */ return function module(name, requires, configFn) { var assertNotHasOwnProperty = function(name, context) { if (name === 'hasOwnProperty') { throw ngMinErr('badname', 'hasOwnProperty is not a valid {0} name', context); } }; assertNotHasOwnProperty(name, 'module'); if (requires && modules.hasOwnProperty(name)) { modules[name] = null; } return ensure(modules, name, function() { if (!requires) { throw $injectorMinErr('nomod', "Module '{0}' is not available! You either misspelled " + "the module name or forgot to load it. If registering a module ensure that you " + "specify the dependencies as the second argument.", name); } /** @type {!Array.>} */ var invokeQueue = []; /** @type {!Array.} */ var configBlocks = []; /** @type {!Array.} */ var runBlocks = []; var config = invokeLater('$injector', 'invoke', 'push', configBlocks); /** @type {angular.Module} */ var moduleInstance = { // Private state _invokeQueue: invokeQueue, _configBlocks: configBlocks, _runBlocks: runBlocks, /** * @ngdoc property * @name angular.Module#requires * @module ng * * @description * Holds the list of modules which the injector will load before the current module is * loaded. */ requires: requires, /** * @ngdoc property * @name angular.Module#name * @module ng * * @description * Name of the module. */ name: name, /** * @ngdoc method * @name angular.Module#provider * @module ng * @param {string} name service name * @param {Function} providerType Construction function for creating new instance of the * service. * @description * See {@link auto.$provide#provider $provide.provider()}. */ provider: invokeLaterAndSetModuleName('$provide', 'provider'), /** * @ngdoc method * @name angular.Module#factory * @module ng * @param {string} name service name * @param {Function} providerFunction Function for creating new instance of the service. * @description * See {@link auto.$provide#factory $provide.factory()}. */ factory: invokeLaterAndSetModuleName('$provide', 'factory'), /** * @ngdoc method * @name angular.Module#service * @module ng * @param {string} name service name * @param {Function} constructor A constructor function that will be instantiated. * @description * See {@link auto.$provide#service $provide.service()}. */ service: invokeLaterAndSetModuleName('$provide', 'service'), /** * @ngdoc method * @name angular.Module#value * @module ng * @param {string} name service name * @param {*} object Service instance object. * @description * See {@link auto.$provide#value $provide.value()}. */ value: invokeLater('$provide', 'value'), /** * @ngdoc method * @name angular.Module#constant * @module ng * @param {string} name constant name * @param {*} object Constant value. * @description * Because the constants are fixed, they get applied before other provide methods. * See {@link auto.$provide#constant $provide.constant()}. */ constant: invokeLater('$provide', 'constant', 'unshift'), /** * @ngdoc method * @name angular.Module#decorator * @module ng * @param {string} name The name of the service to decorate. * @param {Function} decorFn This function will be invoked when the service needs to be * instantiated and should return the decorated service instance. * @description * See {@link auto.$provide#decorator $provide.decorator()}. */ decorator: invokeLaterAndSetModuleName('$provide', 'decorator'), /** * @ngdoc method * @name angular.Module#animation * @module ng * @param {string} name animation name * @param {Function} animationFactory Factory function for creating new instance of an * animation. * @description * * **NOTE**: animations take effect only if the **ngAnimate** module is loaded. * * * Defines an animation hook that can be later used with * {@link $animate $animate} service and directives that use this service. * * ```js * module.animation('.animation-name', function($inject1, $inject2) { * return { * eventName : function(element, done) { * //code to run the animation * //once complete, then run done() * return function cancellationFunction(element) { * //code to cancel the animation * } * } * } * }) * ``` * * See {@link ng.$animateProvider#register $animateProvider.register()} and * {@link ngAnimate ngAnimate module} for more information. */ animation: invokeLaterAndSetModuleName('$animateProvider', 'register'), /** * @ngdoc method * @name angular.Module#filter * @module ng * @param {string} name Filter name - this must be a valid angular expression identifier * @param {Function} filterFactory Factory function for creating new instance of filter. * @description * See {@link ng.$filterProvider#register $filterProvider.register()}. * *
* **Note:** Filter names must be valid angular {@link expression} identifiers, such as `uppercase` or `orderBy`. * Names with special characters, such as hyphens and dots, are not allowed. If you wish to namespace * your filters, then you can use capitalization (`myappSubsectionFilterx`) or underscores * (`myapp_subsection_filterx`). *
*/ filter: invokeLaterAndSetModuleName('$filterProvider', 'register'), /** * @ngdoc method * @name angular.Module#controller * @module ng * @param {string|Object} name Controller name, or an object map of controllers where the * keys are the names and the values are the constructors. * @param {Function} constructor Controller constructor function. * @description * See {@link ng.$controllerProvider#register $controllerProvider.register()}. */ controller: invokeLaterAndSetModuleName('$controllerProvider', 'register'), /** * @ngdoc method * @name angular.Module#directive * @module ng * @param {string|Object} name Directive name, or an object map of directives where the * keys are the names and the values are the factories. * @param {Function} directiveFactory Factory function for creating new instance of * directives. * @description * See {@link ng.$compileProvider#directive $compileProvider.directive()}. */ directive: invokeLaterAndSetModuleName('$compileProvider', 'directive'), /** * @ngdoc method * @name angular.Module#component * @module ng * @param {string} name Name of the component in camel-case (i.e. myComp which will match as my-comp) * @param {Object} options Component definition object (a simplified * {@link ng.$compile#directive-definition-object directive definition object}) * * @description * See {@link ng.$compileProvider#component $compileProvider.component()}. */ component: invokeLaterAndSetModuleName('$compileProvider', 'component'), /** * @ngdoc method * @name angular.Module#config * @module ng * @param {Function} configFn Execute this function on module load. Useful for service * configuration. * @description * Use this method to register work which needs to be performed on module loading. * For more about how to configure services, see * {@link providers#provider-recipe Provider Recipe}. */ config: config, /** * @ngdoc method * @name angular.Module#run * @module ng * @param {Function} initializationFn Execute this function after injector creation. * Useful for application initialization. * @description * Use this method to register work which should be performed when the injector is done * loading all modules. */ run: function(block) { runBlocks.push(block); return this; } }; if (configFn) { config(configFn); } return moduleInstance; /** * @param {string} provider * @param {string} method * @param {String=} insertMethod * @returns {angular.Module} */ function invokeLater(provider, method, insertMethod, queue) { if (!queue) queue = invokeQueue; return function() { queue[insertMethod || 'push']([provider, method, arguments]); return moduleInstance; }; } /** * @param {string} provider * @param {string} method * @returns {angular.Module} */ function invokeLaterAndSetModuleName(provider, method) { return function(recipeName, factoryFunction) { if (factoryFunction && isFunction(factoryFunction)) factoryFunction.$$moduleName = name; invokeQueue.push([provider, method, arguments]); return moduleInstance; }; } }); }; }); } /* global shallowCopy: true */ /** * Creates a shallow copy of an object, an array or a primitive. * * Assumes that there are no proto properties for objects. */ function shallowCopy(src, dst) { if (isArray(src)) { dst = dst || []; for (var i = 0, ii = src.length; i < ii; i++) { dst[i] = src[i]; } } else if (isObject(src)) { dst = dst || {}; for (var key in src) { if (!(key.charAt(0) === '$' && key.charAt(1) === '$')) { dst[key] = src[key]; } } } return dst || src; } /* global toDebugString: true */ function serializeObject(obj) { var seen = []; return JSON.stringify(obj, function(key, val) { val = toJsonReplacer(key, val); if (isObject(val)) { if (seen.indexOf(val) >= 0) return '...'; seen.push(val); } return val; }); } function toDebugString(obj) { if (typeof obj === 'function') { return obj.toString().replace(/ \{[\s\S]*$/, ''); } else if (isUndefined(obj)) { return 'undefined'; } else if (typeof obj !== 'string') { return serializeObject(obj); } return obj; } /* global angularModule: true, version: true, $CompileProvider, htmlAnchorDirective, inputDirective, inputDirective, formDirective, scriptDirective, selectDirective, styleDirective, optionDirective, ngBindDirective, ngBindHtmlDirective, ngBindTemplateDirective, ngClassDirective, ngClassEvenDirective, ngClassOddDirective, ngCloakDirective, ngControllerDirective, ngFormDirective, ngHideDirective, ngIfDirective, ngIncludeDirective, ngIncludeFillContentDirective, ngInitDirective, ngNonBindableDirective, ngPluralizeDirective, ngRepeatDirective, ngShowDirective, ngStyleDirective, ngSwitchDirective, ngSwitchWhenDirective, ngSwitchDefaultDirective, ngOptionsDirective, ngTranscludeDirective, ngModelDirective, ngListDirective, ngChangeDirective, patternDirective, patternDirective, requiredDirective, requiredDirective, minlengthDirective, minlengthDirective, maxlengthDirective, maxlengthDirective, ngValueDirective, ngModelOptionsDirective, ngAttributeAliasDirectives, ngEventDirectives, $AnchorScrollProvider, $AnimateProvider, $CoreAnimateCssProvider, $$CoreAnimateJsProvider, $$CoreAnimateQueueProvider, $$AnimateRunnerFactoryProvider, $$AnimateAsyncRunFactoryProvider, $BrowserProvider, $CacheFactoryProvider, $ControllerProvider, $DateProvider, $DocumentProvider, $ExceptionHandlerProvider, $FilterProvider, $$ForceReflowProvider, $InterpolateProvider, $IntervalProvider, $$HashMapProvider, $HttpProvider, $HttpParamSerializerProvider, $HttpParamSerializerJQLikeProvider, $HttpBackendProvider, $xhrFactoryProvider, $jsonpCallbacksProvider, $LocationProvider, $LogProvider, $ParseProvider, $RootScopeProvider, $QProvider, $$QProvider, $$SanitizeUriProvider, $SceProvider, $SceDelegateProvider, $SnifferProvider, $TemplateCacheProvider, $TemplateRequestProvider, $$TestabilityProvider, $TimeoutProvider, $$RAFProvider, $WindowProvider, $$jqLiteProvider, $$CookieReaderProvider */ /** * @ngdoc object * @name angular.version * @module ng * @description * An object that contains information about the current AngularJS version. * * This object has the following properties: * * - `full` – `{string}` – Full version string, such as "0.9.18". * - `major` – `{number}` – Major version number, such as "0". * - `minor` – `{number}` – Minor version number, such as "9". * - `dot` – `{number}` – Dot version number, such as "18". * - `codeName` – `{string}` – Code name of the release, such as "jiggling-armfat". */ var version = { full: '1.5.8', // all of these placeholder strings will be replaced by grunt's major: 1, // package task minor: 5, dot: 8, codeName: 'arbitrary-fallbacks' }; function publishExternalAPI(angular) { extend(angular, { 'bootstrap': bootstrap, 'copy': copy, 'extend': extend, 'merge': merge, 'equals': equals, 'element': jqLite, 'forEach': forEach, 'injector': createInjector, 'noop': noop, 'bind': bind, 'toJson': toJson, 'fromJson': fromJson, 'identity': identity, 'isUndefined': isUndefined, 'isDefined': isDefined, 'isString': isString, 'isFunction': isFunction, 'isObject': isObject, 'isNumber': isNumber, 'isElement': isElement, 'isArray': isArray, 'version': version, 'isDate': isDate, 'lowercase': lowercase, 'uppercase': uppercase, 'callbacks': {$$counter: 0}, 'getTestability': getTestability, '$$minErr': minErr, '$$csp': csp, 'reloadWithDebugInfo': reloadWithDebugInfo }); angularModule = setupModuleLoader(window); angularModule('ng', ['ngLocale'], ['$provide', function ngModule($provide) { // $$sanitizeUriProvider needs to be before $compileProvider as it is used by it. $provide.provider({ $$sanitizeUri: $$SanitizeUriProvider }); $provide.provider('$compile', $CompileProvider). directive({ a: htmlAnchorDirective, input: inputDirective, textarea: inputDirective, form: formDirective, script: scriptDirective, select: selectDirective, style: styleDirective, option: optionDirective, ngBind: ngBindDirective, ngBindHtml: ngBindHtmlDirective, ngBindTemplate: ngBindTemplateDirective, ngClass: ngClassDirective, ngClassEven: ngClassEvenDirective, ngClassOdd: ngClassOddDirective, ngCloak: ngCloakDirective, ngController: ngControllerDirective, ngForm: ngFormDirective, ngHide: ngHideDirective, ngIf: ngIfDirective, ngInclude: ngIncludeDirective, ngInit: ngInitDirective, ngNonBindable: ngNonBindableDirective, ngPluralize: ngPluralizeDirective, ngRepeat: ngRepeatDirective, ngShow: ngShowDirective, ngStyle: ngStyleDirective, ngSwitch: ngSwitchDirective, ngSwitchWhen: ngSwitchWhenDirective, ngSwitchDefault: ngSwitchDefaultDirective, ngOptions: ngOptionsDirective, ngTransclude: ngTranscludeDirective, ngModel: ngModelDirective, ngList: ngListDirective, ngChange: ngChangeDirective, pattern: patternDirective, ngPattern: patternDirective, required: requiredDirective, ngRequired: requiredDirective, minlength: minlengthDirective, ngMinlength: minlengthDirective, maxlength: maxlengthDirective, ngMaxlength: maxlengthDirective, ngValue: ngValueDirective, ngModelOptions: ngModelOptionsDirective }). directive({ ngInclude: ngIncludeFillContentDirective }). directive(ngAttributeAliasDirectives). directive(ngEventDirectives); $provide.provider({ $anchorScroll: $AnchorScrollProvider, $animate: $AnimateProvider, $animateCss: $CoreAnimateCssProvider, $$animateJs: $$CoreAnimateJsProvider, $$animateQueue: $$CoreAnimateQueueProvider, $$AnimateRunner: $$AnimateRunnerFactoryProvider, $$animateAsyncRun: $$AnimateAsyncRunFactoryProvider, $browser: $BrowserProvider, $cacheFactory: $CacheFactoryProvider, $controller: $ControllerProvider, $document: $DocumentProvider, $exceptionHandler: $ExceptionHandlerProvider, $filter: $FilterProvider, $$forceReflow: $$ForceReflowProvider, $interpolate: $InterpolateProvider, $interval: $IntervalProvider, $http: $HttpProvider, $httpParamSerializer: $HttpParamSerializerProvider, $httpParamSerializerJQLike: $HttpParamSerializerJQLikeProvider, $httpBackend: $HttpBackendProvider, $xhrFactory: $xhrFactoryProvider, $jsonpCallbacks: $jsonpCallbacksProvider, $location: $LocationProvider, $log: $LogProvider, $parse: $ParseProvider, $rootScope: $RootScopeProvider, $q: $QProvider, $$q: $$QProvider, $sce: $SceProvider, $sceDelegate: $SceDelegateProvider, $sniffer: $SnifferProvider, $templateCache: $TemplateCacheProvider, $templateRequest: $TemplateRequestProvider, $$testability: $$TestabilityProvider, $timeout: $TimeoutProvider, $window: $WindowProvider, $$rAF: $$RAFProvider, $$jqLite: $$jqLiteProvider, $$HashMap: $$HashMapProvider, $$cookieReader: $$CookieReaderProvider }); } ]); } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Any commits to this file should be reviewed with security in mind. * * Changes to this file can potentially create security vulnerabilities. * * An approval from 2 Core members with history of modifying * * this file is required. * * * * Does the change somehow allow for arbitrary javascript to be executed? * * Or allows for someone to change the prototype of built-in objects? * * Or gives undesired access to variables likes document or window? * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /* global JQLitePrototype: true, addEventListenerFn: true, removeEventListenerFn: true, BOOLEAN_ATTR: true, ALIASED_ATTR: true, */ ////////////////////////////////// //JQLite ////////////////////////////////// /** * @ngdoc function * @name angular.element * @module ng * @kind function * * @description * Wraps a raw DOM element or HTML string as a [jQuery](http://jquery.com) element. * * If jQuery is available, `angular.element` is an alias for the * [jQuery](http://api.jquery.com/jQuery/) function. If jQuery is not available, `angular.element` * delegates to Angular's built-in subset of jQuery, called "jQuery lite" or **jqLite**. * * jqLite is a tiny, API-compatible subset of jQuery that allows * Angular to manipulate the DOM in a cross-browser compatible way. jqLite implements only the most * commonly needed functionality with the goal of having a very small footprint. * * To use `jQuery`, simply ensure it is loaded before the `angular.js` file. You can also use the * {@link ngJq `ngJq`} directive to specify that jqlite should be used over jQuery, or to use a * specific version of jQuery if multiple versions exist on the page. * *
**Note:** All element references in Angular are always wrapped with jQuery or * jqLite (such as the element argument in a directive's compile / link function). They are never raw DOM references.
* *
**Note:** Keep in mind that this function will not find elements * by tag name / CSS selector. For lookups by tag name, try instead `angular.element(document).find(...)` * or `$document.find()`, or use the standard DOM APIs, e.g. `document.querySelectorAll()`.
* * ## Angular's jqLite * jqLite provides only the following jQuery methods: * * - [`addClass()`](http://api.jquery.com/addClass/) - Does not support a function as first argument * - [`after()`](http://api.jquery.com/after/) * - [`append()`](http://api.jquery.com/append/) * - [`attr()`](http://api.jquery.com/attr/) - Does not support functions as parameters * - [`bind()`](http://api.jquery.com/bind/) - Does not support namespaces, selectors or eventData * - [`children()`](http://api.jquery.com/children/) - Does not support selectors * - [`clone()`](http://api.jquery.com/clone/) * - [`contents()`](http://api.jquery.com/contents/) * - [`css()`](http://api.jquery.com/css/) - Only retrieves inline-styles, does not call `getComputedStyle()`. * As a setter, does not convert numbers to strings or append 'px', and also does not have automatic property prefixing. * - [`data()`](http://api.jquery.com/data/) * - [`detach()`](http://api.jquery.com/detach/) * - [`empty()`](http://api.jquery.com/empty/) * - [`eq()`](http://api.jquery.com/eq/) * - [`find()`](http://api.jquery.com/find/) - Limited to lookups by tag name * - [`hasClass()`](http://api.jquery.com/hasClass/) * - [`html()`](http://api.jquery.com/html/) * - [`next()`](http://api.jquery.com/next/) - Does not support selectors * - [`on()`](http://api.jquery.com/on/) - Does not support namespaces, selectors or eventData * - [`off()`](http://api.jquery.com/off/) - Does not support namespaces, selectors or event object as parameter * - [`one()`](http://api.jquery.com/one/) - Does not support namespaces or selectors * - [`parent()`](http://api.jquery.com/parent/) - Does not support selectors * - [`prepend()`](http://api.jquery.com/prepend/) * - [`prop()`](http://api.jquery.com/prop/) * - [`ready()`](http://api.jquery.com/ready/) * - [`remove()`](http://api.jquery.com/remove/) * - [`removeAttr()`](http://api.jquery.com/removeAttr/) * - [`removeClass()`](http://api.jquery.com/removeClass/) - Does not support a function as first argument * - [`removeData()`](http://api.jquery.com/removeData/) * - [`replaceWith()`](http://api.jquery.com/replaceWith/) * - [`text()`](http://api.jquery.com/text/) * - [`toggleClass()`](http://api.jquery.com/toggleClass/) - Does not support a function as first argument * - [`triggerHandler()`](http://api.jquery.com/triggerHandler/) - Passes a dummy event object to handlers * - [`unbind()`](http://api.jquery.com/unbind/) - Does not support namespaces or event object as parameter * - [`val()`](http://api.jquery.com/val/) * - [`wrap()`](http://api.jquery.com/wrap/) * * ## jQuery/jqLite Extras * Angular also provides the following additional methods and events to both jQuery and jqLite: * * ### Events * - `$destroy` - AngularJS intercepts all jqLite/jQuery's DOM destruction apis and fires this event * on all DOM nodes being removed. This can be used to clean up any 3rd party bindings to the DOM * element before it is removed. * * ### Methods * - `controller(name)` - retrieves the controller of the current element or its parent. By default * retrieves controller associated with the `ngController` directive. If `name` is provided as * camelCase directive name, then the controller for this directive will be retrieved (e.g. * `'ngModel'`). * - `injector()` - retrieves the injector of the current element or its parent. * - `scope()` - retrieves the {@link ng.$rootScope.Scope scope} of the current * element or its parent. Requires {@link guide/production#disabling-debug-data Debug Data} to * be enabled. * - `isolateScope()` - retrieves an isolate {@link ng.$rootScope.Scope scope} if one is attached directly to the * current element. This getter should be used only on elements that contain a directive which starts a new isolate * scope. Calling `scope()` on this element always returns the original non-isolate scope. * Requires {@link guide/production#disabling-debug-data Debug Data} to be enabled. * - `inheritedData()` - same as `data()`, but walks up the DOM until a value is found or the top * parent element is reached. * * @knownIssue You cannot spy on `angular.element` if you are using Jasmine version 1.x. See * https://github.com/angular/angular.js/issues/14251 for more information. * * @param {string|DOMElement} element HTML string or DOMElement to be wrapped into jQuery. * @returns {Object} jQuery object. */ JQLite.expando = 'ng339'; var jqCache = JQLite.cache = {}, jqId = 1, addEventListenerFn = function(element, type, fn) { element.addEventListener(type, fn, false); }, removeEventListenerFn = function(element, type, fn) { element.removeEventListener(type, fn, false); }; /* * !!! This is an undocumented "private" function !!! */ JQLite._data = function(node) { //jQuery always returns an object on cache miss return this.cache[node[this.expando]] || {}; }; function jqNextId() { return ++jqId; } var SPECIAL_CHARS_REGEXP = /([\:\-\_]+(.))/g; var MOZ_HACK_REGEXP = /^moz([A-Z])/; var MOUSE_EVENT_MAP= { mouseleave: "mouseout", mouseenter: "mouseover"}; var jqLiteMinErr = minErr('jqLite'); /** * Converts snake_case to camelCase. * Also there is special case for Moz prefix starting with upper case letter. * @param name Name to normalize */ function camelCase(name) { return name. replace(SPECIAL_CHARS_REGEXP, function(_, separator, letter, offset) { return offset ? letter.toUpperCase() : letter; }). replace(MOZ_HACK_REGEXP, 'Moz$1'); } var SINGLE_TAG_REGEXP = /^<([\w-]+)\s*\/?>(?:<\/\1>|)$/; var HTML_REGEXP = /<|&#?\w+;/; var TAG_NAME_REGEXP = /<([\w:-]+)/; var XHTML_TAG_REGEXP = /<(?!area|br|col|embed|hr|img|input|link|meta|param)(([\w:-]+)[^>]*)\/>/gi; var wrapMap = { 'option': [1, ''], 'thead': [1, '', '
'], 'col': [2, '', '
'], 'tr': [2, '', '
'], 'td': [3, '', '
'], '_default': [0, "", ""] }; wrapMap.optgroup = wrapMap.option; wrapMap.tbody = wrapMap.tfoot = wrapMap.colgroup = wrapMap.caption = wrapMap.thead; wrapMap.th = wrapMap.td; function jqLiteIsTextNode(html) { return !HTML_REGEXP.test(html); } function jqLiteAcceptsData(node) { // The window object can accept data but has no nodeType // Otherwise we are only interested in elements (1) and documents (9) var nodeType = node.nodeType; return nodeType === NODE_TYPE_ELEMENT || !nodeType || nodeType === NODE_TYPE_DOCUMENT; } function jqLiteHasData(node) { for (var key in jqCache[node.ng339]) { return true; } return false; } function jqLiteCleanData(nodes) { for (var i = 0, ii = nodes.length; i < ii; i++) { jqLiteRemoveData(nodes[i]); } } function jqLiteBuildFragment(html, context) { var tmp, tag, wrap, fragment = context.createDocumentFragment(), nodes = [], i; if (jqLiteIsTextNode(html)) { // Convert non-html into a text node nodes.push(context.createTextNode(html)); } else { // Convert html into DOM nodes tmp = fragment.appendChild(context.createElement("div")); tag = (TAG_NAME_REGEXP.exec(html) || ["", ""])[1].toLowerCase(); wrap = wrapMap[tag] || wrapMap._default; tmp.innerHTML = wrap[1] + html.replace(XHTML_TAG_REGEXP, "<$1>") + wrap[2]; // Descend through wrappers to the right content i = wrap[0]; while (i--) { tmp = tmp.lastChild; } nodes = concat(nodes, tmp.childNodes); tmp = fragment.firstChild; tmp.textContent = ""; } // Remove wrapper from fragment fragment.textContent = ""; fragment.innerHTML = ""; // Clear inner HTML forEach(nodes, function(node) { fragment.appendChild(node); }); return fragment; } function jqLiteParseHTML(html, context) { context = context || window.document; var parsed; if ((parsed = SINGLE_TAG_REGEXP.exec(html))) { return [context.createElement(parsed[1])]; } if ((parsed = jqLiteBuildFragment(html, context))) { return parsed.childNodes; } return []; } function jqLiteWrapNode(node, wrapper) { var parent = node.parentNode; if (parent) { parent.replaceChild(wrapper, node); } wrapper.appendChild(node); } // IE9-11 has no method "contains" in SVG element and in Node.prototype. Bug #10259. var jqLiteContains = window.Node.prototype.contains || function(arg) { // jshint bitwise: false return !!(this.compareDocumentPosition(arg) & 16); // jshint bitwise: true }; ///////////////////////////////////////////// function JQLite(element) { if (element instanceof JQLite) { return element; } var argIsString; if (isString(element)) { element = trim(element); argIsString = true; } if (!(this instanceof JQLite)) { if (argIsString && element.charAt(0) != '<') { throw jqLiteMinErr('nosel', 'Looking up elements via selectors is not supported by jqLite! See: http://docs.angularjs.org/api/angular.element'); } return new JQLite(element); } if (argIsString) { jqLiteAddNodes(this, jqLiteParseHTML(element)); } else { jqLiteAddNodes(this, element); } } function jqLiteClone(element) { return element.cloneNode(true); } function jqLiteDealoc(element, onlyDescendants) { if (!onlyDescendants) jqLiteRemoveData(element); if (element.querySelectorAll) { var descendants = element.querySelectorAll('*'); for (var i = 0, l = descendants.length; i < l; i++) { jqLiteRemoveData(descendants[i]); } } } function jqLiteOff(element, type, fn, unsupported) { if (isDefined(unsupported)) throw jqLiteMinErr('offargs', 'jqLite#off() does not support the `selector` argument'); var expandoStore = jqLiteExpandoStore(element); var events = expandoStore && expandoStore.events; var handle = expandoStore && expandoStore.handle; if (!handle) return; //no listeners registered if (!type) { for (type in events) { if (type !== '$destroy') { removeEventListenerFn(element, type, handle); } delete events[type]; } } else { var removeHandler = function(type) { var listenerFns = events[type]; if (isDefined(fn)) { arrayRemove(listenerFns || [], fn); } if (!(isDefined(fn) && listenerFns && listenerFns.length > 0)) { removeEventListenerFn(element, type, handle); delete events[type]; } }; forEach(type.split(' '), function(type) { removeHandler(type); if (MOUSE_EVENT_MAP[type]) { removeHandler(MOUSE_EVENT_MAP[type]); } }); } } function jqLiteRemoveData(element, name) { var expandoId = element.ng339; var expandoStore = expandoId && jqCache[expandoId]; if (expandoStore) { if (name) { delete expandoStore.data[name]; return; } if (expandoStore.handle) { if (expandoStore.events.$destroy) { expandoStore.handle({}, '$destroy'); } jqLiteOff(element); } delete jqCache[expandoId]; element.ng339 = undefined; // don't delete DOM expandos. IE and Chrome don't like it } } function jqLiteExpandoStore(element, createIfNecessary) { var expandoId = element.ng339, expandoStore = expandoId && jqCache[expandoId]; if (createIfNecessary && !expandoStore) { element.ng339 = expandoId = jqNextId(); expandoStore = jqCache[expandoId] = {events: {}, data: {}, handle: undefined}; } return expandoStore; } function jqLiteData(element, key, value) { if (jqLiteAcceptsData(element)) { var isSimpleSetter = isDefined(value); var isSimpleGetter = !isSimpleSetter && key && !isObject(key); var massGetter = !key; var expandoStore = jqLiteExpandoStore(element, !isSimpleGetter); var data = expandoStore && expandoStore.data; if (isSimpleSetter) { // data('key', value) data[key] = value; } else { if (massGetter) { // data() return data; } else { if (isSimpleGetter) { // data('key') // don't force creation of expandoStore if it doesn't exist yet return data && data[key]; } else { // mass-setter: data({key1: val1, key2: val2}) extend(data, key); } } } } } function jqLiteHasClass(element, selector) { if (!element.getAttribute) return false; return ((" " + (element.getAttribute('class') || '') + " ").replace(/[\n\t]/g, " "). indexOf(" " + selector + " ") > -1); } function jqLiteRemoveClass(element, cssClasses) { if (cssClasses && element.setAttribute) { forEach(cssClasses.split(' '), function(cssClass) { element.setAttribute('class', trim( (" " + (element.getAttribute('class') || '') + " ") .replace(/[\n\t]/g, " ") .replace(" " + trim(cssClass) + " ", " ")) ); }); } } function jqLiteAddClass(element, cssClasses) { if (cssClasses && element.setAttribute) { var existingClasses = (' ' + (element.getAttribute('class') || '') + ' ') .replace(/[\n\t]/g, " "); forEach(cssClasses.split(' '), function(cssClass) { cssClass = trim(cssClass); if (existingClasses.indexOf(' ' + cssClass + ' ') === -1) { existingClasses += cssClass + ' '; } }); element.setAttribute('class', trim(existingClasses)); } } function jqLiteAddNodes(root, elements) { // THIS CODE IS VERY HOT. Don't make changes without benchmarking. if (elements) { // if a Node (the most common case) if (elements.nodeType) { root[root.length++] = elements; } else { var length = elements.length; // if an Array or NodeList and not a Window if (typeof length === 'number' && elements.window !== elements) { if (length) { for (var i = 0; i < length; i++) { root[root.length++] = elements[i]; } } } else { root[root.length++] = elements; } } } } function jqLiteController(element, name) { return jqLiteInheritedData(element, '$' + (name || 'ngController') + 'Controller'); } function jqLiteInheritedData(element, name, value) { // if element is the document object work with the html element instead // this makes $(document).scope() possible if (element.nodeType == NODE_TYPE_DOCUMENT) { element = element.documentElement; } var names = isArray(name) ? name : [name]; while (element) { for (var i = 0, ii = names.length; i < ii; i++) { if (isDefined(value = jqLite.data(element, names[i]))) return value; } // If dealing with a document fragment node with a host element, and no parent, use the host // element as the parent. This enables directives within a Shadow DOM or polyfilled Shadow DOM // to lookup parent controllers. element = element.parentNode || (element.nodeType === NODE_TYPE_DOCUMENT_FRAGMENT && element.host); } } function jqLiteEmpty(element) { jqLiteDealoc(element, true); while (element.firstChild) { element.removeChild(element.firstChild); } } function jqLiteRemove(element, keepData) { if (!keepData) jqLiteDealoc(element); var parent = element.parentNode; if (parent) parent.removeChild(element); } function jqLiteDocumentLoaded(action, win) { win = win || window; if (win.document.readyState === 'complete') { // Force the action to be run async for consistent behavior // from the action's point of view // i.e. it will definitely not be in a $apply win.setTimeout(action); } else { // No need to unbind this handler as load is only ever called once jqLite(win).on('load', action); } } ////////////////////////////////////////// // Functions which are declared directly. ////////////////////////////////////////// var JQLitePrototype = JQLite.prototype = { ready: function(fn) { var fired = false; function trigger() { if (fired) return; fired = true; fn(); } // check if document is already loaded if (window.document.readyState === 'complete') { window.setTimeout(trigger); } else { this.on('DOMContentLoaded', trigger); // works for modern browsers and IE9 // we can not use jqLite since we are not done loading and jQuery could be loaded later. // jshint -W064 JQLite(window).on('load', trigger); // fallback to window.onload for others // jshint +W064 } }, toString: function() { var value = []; forEach(this, function(e) { value.push('' + e);}); return '[' + value.join(', ') + ']'; }, eq: function(index) { return (index >= 0) ? jqLite(this[index]) : jqLite(this[this.length + index]); }, length: 0, push: push, sort: [].sort, splice: [].splice }; ////////////////////////////////////////// // Functions iterating getter/setters. // these functions return self on setter and // value on get. ////////////////////////////////////////// var BOOLEAN_ATTR = {}; forEach('multiple,selected,checked,disabled,readOnly,required,open'.split(','), function(value) { BOOLEAN_ATTR[lowercase(value)] = value; }); var BOOLEAN_ELEMENTS = {}; forEach('input,select,option,textarea,button,form,details'.split(','), function(value) { BOOLEAN_ELEMENTS[value] = true; }); var ALIASED_ATTR = { 'ngMinlength': 'minlength', 'ngMaxlength': 'maxlength', 'ngMin': 'min', 'ngMax': 'max', 'ngPattern': 'pattern' }; function getBooleanAttrName(element, name) { // check dom last since we will most likely fail on name var booleanAttr = BOOLEAN_ATTR[name.toLowerCase()]; // booleanAttr is here twice to minimize DOM access return booleanAttr && BOOLEAN_ELEMENTS[nodeName_(element)] && booleanAttr; } function getAliasedAttrName(name) { return ALIASED_ATTR[name]; } forEach({ data: jqLiteData, removeData: jqLiteRemoveData, hasData: jqLiteHasData, cleanData: jqLiteCleanData }, function(fn, name) { JQLite[name] = fn; }); forEach({ data: jqLiteData, inheritedData: jqLiteInheritedData, scope: function(element) { // Can't use jqLiteData here directly so we stay compatible with jQuery! return jqLite.data(element, '$scope') || jqLiteInheritedData(element.parentNode || element, ['$isolateScope', '$scope']); }, isolateScope: function(element) { // Can't use jqLiteData here directly so we stay compatible with jQuery! return jqLite.data(element, '$isolateScope') || jqLite.data(element, '$isolateScopeNoTemplate'); }, controller: jqLiteController, injector: function(element) { return jqLiteInheritedData(element, '$injector'); }, removeAttr: function(element, name) { element.removeAttribute(name); }, hasClass: jqLiteHasClass, css: function(element, name, value) { name = camelCase(name); if (isDefined(value)) { element.style[name] = value; } else { return element.style[name]; } }, attr: function(element, name, value) { var nodeType = element.nodeType; if (nodeType === NODE_TYPE_TEXT || nodeType === NODE_TYPE_ATTRIBUTE || nodeType === NODE_TYPE_COMMENT) { return; } var lowercasedName = lowercase(name); if (BOOLEAN_ATTR[lowercasedName]) { if (isDefined(value)) { if (!!value) { element[name] = true; element.setAttribute(name, lowercasedName); } else { element[name] = false; element.removeAttribute(lowercasedName); } } else { return (element[name] || (element.attributes.getNamedItem(name) || noop).specified) ? lowercasedName : undefined; } } else if (isDefined(value)) { element.setAttribute(name, value); } else if (element.getAttribute) { // the extra argument "2" is to get the right thing for a.href in IE, see jQuery code // some elements (e.g. Document) don't have get attribute, so return undefined var ret = element.getAttribute(name, 2); // normalize non-existing attributes to undefined (as jQuery) return ret === null ? undefined : ret; } }, prop: function(element, name, value) { if (isDefined(value)) { element[name] = value; } else { return element[name]; } }, text: (function() { getText.$dv = ''; return getText; function getText(element, value) { if (isUndefined(value)) { var nodeType = element.nodeType; return (nodeType === NODE_TYPE_ELEMENT || nodeType === NODE_TYPE_TEXT) ? element.textContent : ''; } element.textContent = value; } })(), val: function(element, value) { if (isUndefined(value)) { if (element.multiple && nodeName_(element) === 'select') { var result = []; forEach(element.options, function(option) { if (option.selected) { result.push(option.value || option.text); } }); return result.length === 0 ? null : result; } return element.value; } element.value = value; }, html: function(element, value) { if (isUndefined(value)) { return element.innerHTML; } jqLiteDealoc(element, true); element.innerHTML = value; }, empty: jqLiteEmpty }, function(fn, name) { /** * Properties: writes return selection, reads return first value */ JQLite.prototype[name] = function(arg1, arg2) { var i, key; var nodeCount = this.length; // jqLiteHasClass has only two arguments, but is a getter-only fn, so we need to special-case it // in a way that survives minification. // jqLiteEmpty takes no arguments but is a setter. if (fn !== jqLiteEmpty && (isUndefined((fn.length == 2 && (fn !== jqLiteHasClass && fn !== jqLiteController)) ? arg1 : arg2))) { if (isObject(arg1)) { // we are a write, but the object properties are the key/values for (i = 0; i < nodeCount; i++) { if (fn === jqLiteData) { // data() takes the whole object in jQuery fn(this[i], arg1); } else { for (key in arg1) { fn(this[i], key, arg1[key]); } } } // return self for chaining return this; } else { // we are a read, so read the first child. // TODO: do we still need this? var value = fn.$dv; // Only if we have $dv do we iterate over all, otherwise it is just the first element. var jj = (isUndefined(value)) ? Math.min(nodeCount, 1) : nodeCount; for (var j = 0; j < jj; j++) { var nodeValue = fn(this[j], arg1, arg2); value = value ? value + nodeValue : nodeValue; } return value; } } else { // we are a write, so apply to all children for (i = 0; i < nodeCount; i++) { fn(this[i], arg1, arg2); } // return self for chaining return this; } }; }); function createEventHandler(element, events) { var eventHandler = function(event, type) { // jQuery specific api event.isDefaultPrevented = function() { return event.defaultPrevented; }; var eventFns = events[type || event.type]; var eventFnsLength = eventFns ? eventFns.length : 0; if (!eventFnsLength) return; if (isUndefined(event.immediatePropagationStopped)) { var originalStopImmediatePropagation = event.stopImmediatePropagation; event.stopImmediatePropagation = function() { event.immediatePropagationStopped = true; if (event.stopPropagation) { event.stopPropagation(); } if (originalStopImmediatePropagation) { originalStopImmediatePropagation.call(event); } }; } event.isImmediatePropagationStopped = function() { return event.immediatePropagationStopped === true; }; // Some events have special handlers that wrap the real handler var handlerWrapper = eventFns.specialHandlerWrapper || defaultHandlerWrapper; // Copy event handlers in case event handlers array is modified during execution. if ((eventFnsLength > 1)) { eventFns = shallowCopy(eventFns); } for (var i = 0; i < eventFnsLength; i++) { if (!event.isImmediatePropagationStopped()) { handlerWrapper(element, event, eventFns[i]); } } }; // TODO: this is a hack for angularMocks/clearDataCache that makes it possible to deregister all // events on `element` eventHandler.elem = element; return eventHandler; } function defaultHandlerWrapper(element, event, handler) { handler.call(element, event); } function specialMouseHandlerWrapper(target, event, handler) { // Refer to jQuery's implementation of mouseenter & mouseleave // Read about mouseenter and mouseleave: // http://www.quirksmode.org/js/events_mouse.html#link8 var related = event.relatedTarget; // For mousenter/leave call the handler if related is outside the target. // NB: No relatedTarget if the mouse left/entered the browser window if (!related || (related !== target && !jqLiteContains.call(target, related))) { handler.call(target, event); } } ////////////////////////////////////////// // Functions iterating traversal. // These functions chain results into a single // selector. ////////////////////////////////////////// forEach({ removeData: jqLiteRemoveData, on: function jqLiteOn(element, type, fn, unsupported) { if (isDefined(unsupported)) throw jqLiteMinErr('onargs', 'jqLite#on() does not support the `selector` or `eventData` parameters'); // Do not add event handlers to non-elements because they will not be cleaned up. if (!jqLiteAcceptsData(element)) { return; } var expandoStore = jqLiteExpandoStore(element, true); var events = expandoStore.events; var handle = expandoStore.handle; if (!handle) { handle = expandoStore.handle = createEventHandler(element, events); } // http://jsperf.com/string-indexof-vs-split var types = type.indexOf(' ') >= 0 ? type.split(' ') : [type]; var i = types.length; var addHandler = function(type, specialHandlerWrapper, noEventListener) { var eventFns = events[type]; if (!eventFns) { eventFns = events[type] = []; eventFns.specialHandlerWrapper = specialHandlerWrapper; if (type !== '$destroy' && !noEventListener) { addEventListenerFn(element, type, handle); } } eventFns.push(fn); }; while (i--) { type = types[i]; if (MOUSE_EVENT_MAP[type]) { addHandler(MOUSE_EVENT_MAP[type], specialMouseHandlerWrapper); addHandler(type, undefined, true); } else { addHandler(type); } } }, off: jqLiteOff, one: function(element, type, fn) { element = jqLite(element); //add the listener twice so that when it is called //you can remove the original function and still be //able to call element.off(ev, fn) normally element.on(type, function onFn() { element.off(type, fn); element.off(type, onFn); }); element.on(type, fn); }, replaceWith: function(element, replaceNode) { var index, parent = element.parentNode; jqLiteDealoc(element); forEach(new JQLite(replaceNode), function(node) { if (index) { parent.insertBefore(node, index.nextSibling); } else { parent.replaceChild(node, element); } index = node; }); }, children: function(element) { var children = []; forEach(element.childNodes, function(element) { if (element.nodeType === NODE_TYPE_ELEMENT) { children.push(element); } }); return children; }, contents: function(element) { return element.contentDocument || element.childNodes || []; }, append: function(element, node) { var nodeType = element.nodeType; if (nodeType !== NODE_TYPE_ELEMENT && nodeType !== NODE_TYPE_DOCUMENT_FRAGMENT) return; node = new JQLite(node); for (var i = 0, ii = node.length; i < ii; i++) { var child = node[i]; element.appendChild(child); } }, prepend: function(element, node) { if (element.nodeType === NODE_TYPE_ELEMENT) { var index = element.firstChild; forEach(new JQLite(node), function(child) { element.insertBefore(child, index); }); } }, wrap: function(element, wrapNode) { jqLiteWrapNode(element, jqLite(wrapNode).eq(0).clone()[0]); }, remove: jqLiteRemove, detach: function(element) { jqLiteRemove(element, true); }, after: function(element, newElement) { var index = element, parent = element.parentNode; newElement = new JQLite(newElement); for (var i = 0, ii = newElement.length; i < ii; i++) { var node = newElement[i]; parent.insertBefore(node, index.nextSibling); index = node; } }, addClass: jqLiteAddClass, removeClass: jqLiteRemoveClass, toggleClass: function(element, selector, condition) { if (selector) { forEach(selector.split(' '), function(className) { var classCondition = condition; if (isUndefined(classCondition)) { classCondition = !jqLiteHasClass(element, className); } (classCondition ? jqLiteAddClass : jqLiteRemoveClass)(element, className); }); } }, parent: function(element) { var parent = element.parentNode; return parent && parent.nodeType !== NODE_TYPE_DOCUMENT_FRAGMENT ? parent : null; }, next: function(element) { return element.nextElementSibling; }, find: function(element, selector) { if (element.getElementsByTagName) { return element.getElementsByTagName(selector); } else { return []; } }, clone: jqLiteClone, triggerHandler: function(element, event, extraParameters) { var dummyEvent, eventFnsCopy, handlerArgs; var eventName = event.type || event; var expandoStore = jqLiteExpandoStore(element); var events = expandoStore && expandoStore.events; var eventFns = events && events[eventName]; if (eventFns) { // Create a dummy event to pass to the handlers dummyEvent = { preventDefault: function() { this.defaultPrevented = true; }, isDefaultPrevented: function() { return this.defaultPrevented === true; }, stopImmediatePropagation: function() { this.immediatePropagationStopped = true; }, isImmediatePropagationStopped: function() { return this.immediatePropagationStopped === true; }, stopPropagation: noop, type: eventName, target: element }; // If a custom event was provided then extend our dummy event with it if (event.type) { dummyEvent = extend(dummyEvent, event); } // Copy event handlers in case event handlers array is modified during execution. eventFnsCopy = shallowCopy(eventFns); handlerArgs = extraParameters ? [dummyEvent].concat(extraParameters) : [dummyEvent]; forEach(eventFnsCopy, function(fn) { if (!dummyEvent.isImmediatePropagationStopped()) { fn.apply(element, handlerArgs); } }); } } }, function(fn, name) { /** * chaining functions */ JQLite.prototype[name] = function(arg1, arg2, arg3) { var value; for (var i = 0, ii = this.length; i < ii; i++) { if (isUndefined(value)) { value = fn(this[i], arg1, arg2, arg3); if (isDefined(value)) { // any function which returns a value needs to be wrapped value = jqLite(value); } } else { jqLiteAddNodes(value, fn(this[i], arg1, arg2, arg3)); } } return isDefined(value) ? value : this; }; // bind legacy bind/unbind to on/off JQLite.prototype.bind = JQLite.prototype.on; JQLite.prototype.unbind = JQLite.prototype.off; }); // Provider for private $$jqLite service function $$jqLiteProvider() { this.$get = function $$jqLite() { return extend(JQLite, { hasClass: function(node, classes) { if (node.attr) node = node[0]; return jqLiteHasClass(node, classes); }, addClass: function(node, classes) { if (node.attr) node = node[0]; return jqLiteAddClass(node, classes); }, removeClass: function(node, classes) { if (node.attr) node = node[0]; return jqLiteRemoveClass(node, classes); } }); }; } /** * Computes a hash of an 'obj'. * Hash of a: * string is string * number is number as string * object is either result of calling $$hashKey function on the object or uniquely generated id, * that is also assigned to the $$hashKey property of the object. * * @param obj * @returns {string} hash string such that the same input will have the same hash string. * The resulting string key is in 'type:hashKey' format. */ function hashKey(obj, nextUidFn) { var key = obj && obj.$$hashKey; if (key) { if (typeof key === 'function') { key = obj.$$hashKey(); } return key; } var objType = typeof obj; if (objType == 'function' || (objType == 'object' && obj !== null)) { key = obj.$$hashKey = objType + ':' + (nextUidFn || nextUid)(); } else { key = objType + ':' + obj; } return key; } /** * HashMap which can use objects as keys */ function HashMap(array, isolatedUid) { if (isolatedUid) { var uid = 0; this.nextUid = function() { return ++uid; }; } forEach(array, this.put, this); } HashMap.prototype = { /** * Store key value pair * @param key key to store can be any type * @param value value to store can be any type */ put: function(key, value) { this[hashKey(key, this.nextUid)] = value; }, /** * @param key * @returns {Object} the value for the key */ get: function(key) { return this[hashKey(key, this.nextUid)]; }, /** * Remove the key/value pair * @param key */ remove: function(key) { var value = this[key = hashKey(key, this.nextUid)]; delete this[key]; return value; } }; var $$HashMapProvider = [function() { this.$get = [function() { return HashMap; }]; }]; /** * @ngdoc function * @module ng * @name angular.injector * @kind function * * @description * Creates an injector object that can be used for retrieving services as well as for * dependency injection (see {@link guide/di dependency injection}). * * @param {Array.} modules A list of module functions or their aliases. See * {@link angular.module}. The `ng` module must be explicitly added. * @param {boolean=} [strictDi=false] Whether the injector should be in strict mode, which * disallows argument name annotation inference. * @returns {injector} Injector object. See {@link auto.$injector $injector}. * * @example * Typical usage * ```js * // create an injector * var $injector = angular.injector(['ng']); * * // use the injector to kick off your application * // use the type inference to auto inject arguments, or use implicit injection * $injector.invoke(function($rootScope, $compile, $document) { * $compile($document)($rootScope); * $rootScope.$digest(); * }); * ``` * * Sometimes you want to get access to the injector of a currently running Angular app * from outside Angular. Perhaps, you want to inject and compile some markup after the * application has been bootstrapped. You can do this using the extra `injector()` added * to JQuery/jqLite elements. See {@link angular.element}. * * *This is fairly rare but could be the case if a third party library is injecting the * markup.* * * In the following example a new block of HTML containing a `ng-controller` * directive is added to the end of the document body by JQuery. We then compile and link * it into the current AngularJS scope. * * ```js * var $div = $('
{{content.label}}
'); * $(document.body).append($div); * * angular.element(document).injector().invoke(function($compile) { * var scope = angular.element($div).scope(); * $compile($div)(scope); * }); * ``` */ /** * @ngdoc module * @name auto * @installation * @description * * Implicit module which gets automatically added to each {@link auto.$injector $injector}. */ var ARROW_ARG = /^([^\(]+?)=>/; var FN_ARGS = /^[^\(]*\(\s*([^\)]*)\)/m; var FN_ARG_SPLIT = /,/; var FN_ARG = /^\s*(_?)(\S+?)\1\s*$/; var STRIP_COMMENTS = /((\/\/.*$)|(\/\*[\s\S]*?\*\/))/mg; var $injectorMinErr = minErr('$injector'); function stringifyFn(fn) { // Support: Chrome 50-51 only // Creating a new string by adding `' '` at the end, to hack around some bug in Chrome v50/51 // (See https://github.com/angular/angular.js/issues/14487.) // TODO (gkalpak): Remove workaround when Chrome v52 is released return Function.prototype.toString.call(fn) + ' '; } function extractArgs(fn) { var fnText = stringifyFn(fn).replace(STRIP_COMMENTS, ''), args = fnText.match(ARROW_ARG) || fnText.match(FN_ARGS); return args; } function anonFn(fn) { // For anonymous functions, showing at the very least the function signature can help in // debugging. var args = extractArgs(fn); if (args) { return 'function(' + (args[1] || '').replace(/[\s\r\n]+/, ' ') + ')'; } return 'fn'; } function annotate(fn, strictDi, name) { var $inject, argDecl, last; if (typeof fn === 'function') { if (!($inject = fn.$inject)) { $inject = []; if (fn.length) { if (strictDi) { if (!isString(name) || !name) { name = fn.name || anonFn(fn); } throw $injectorMinErr('strictdi', '{0} is not using explicit annotation and cannot be invoked in strict mode', name); } argDecl = extractArgs(fn); forEach(argDecl[1].split(FN_ARG_SPLIT), function(arg) { arg.replace(FN_ARG, function(all, underscore, name) { $inject.push(name); }); }); } fn.$inject = $inject; } } else if (isArray(fn)) { last = fn.length - 1; assertArgFn(fn[last], 'fn'); $inject = fn.slice(0, last); } else { assertArgFn(fn, 'fn', true); } return $inject; } /////////////////////////////////////// /** * @ngdoc service * @name $injector * * @description * * `$injector` is used to retrieve object instances as defined by * {@link auto.$provide provider}, instantiate types, invoke methods, * and load modules. * * The following always holds true: * * ```js * var $injector = angular.injector(); * expect($injector.get('$injector')).toBe($injector); * expect($injector.invoke(function($injector) { * return $injector; * })).toBe($injector); * ``` * * # Injection Function Annotation * * JavaScript does not have annotations, and annotations are needed for dependency injection. The * following are all valid ways of annotating function with injection arguments and are equivalent. * * ```js * // inferred (only works if code not minified/obfuscated) * $injector.invoke(function(serviceA){}); * * // annotated * function explicit(serviceA) {}; * explicit.$inject = ['serviceA']; * $injector.invoke(explicit); * * // inline * $injector.invoke(['serviceA', function(serviceA){}]); * ``` * * ## Inference * * In JavaScript calling `toString()` on a function returns the function definition. The definition * can then be parsed and the function arguments can be extracted. This method of discovering * annotations is disallowed when the injector is in strict mode. * *NOTE:* This does not work with minification, and obfuscation tools since these tools change the * argument names. * * ## `$inject` Annotation * By adding an `$inject` property onto a function the injection parameters can be specified. * * ## Inline * As an array of injection names, where the last item in the array is the function to call. */ /** * @ngdoc method * @name $injector#get * * @description * Return an instance of the service. * * @param {string} name The name of the instance to retrieve. * @param {string=} caller An optional string to provide the origin of the function call for error messages. * @return {*} The instance. */ /** * @ngdoc method * @name $injector#invoke * * @description * Invoke the method and supply the method arguments from the `$injector`. * * @param {Function|Array.} fn The injectable function to invoke. Function parameters are * injected according to the {@link guide/di $inject Annotation} rules. * @param {Object=} self The `this` for the invoked method. * @param {Object=} locals Optional object. If preset then any argument names are read from this * object first, before the `$injector` is consulted. * @returns {*} the value returned by the invoked `fn` function. */ /** * @ngdoc method * @name $injector#has * * @description * Allows the user to query if the particular service exists. * * @param {string} name Name of the service to query. * @returns {boolean} `true` if injector has given service. */ /** * @ngdoc method * @name $injector#instantiate * @description * Create a new instance of JS type. The method takes a constructor function, invokes the new * operator, and supplies all of the arguments to the constructor function as specified by the * constructor annotation. * * @param {Function} Type Annotated constructor function. * @param {Object=} locals Optional object. If preset then any argument names are read from this * object first, before the `$injector` is consulted. * @returns {Object} new instance of `Type`. */ /** * @ngdoc method * @name $injector#annotate * * @description * Returns an array of service names which the function is requesting for injection. This API is * used by the injector to determine which services need to be injected into the function when the * function is invoked. There are three ways in which the function can be annotated with the needed * dependencies. * * # Argument names * * The simplest form is to extract the dependencies from the arguments of the function. This is done * by converting the function into a string using `toString()` method and extracting the argument * names. * ```js * // Given * function MyController($scope, $route) { * // ... * } * * // Then * expect(injector.annotate(MyController)).toEqual(['$scope', '$route']); * ``` * * You can disallow this method by using strict injection mode. * * This method does not work with code minification / obfuscation. For this reason the following * annotation strategies are supported. * * # The `$inject` property * * If a function has an `$inject` property and its value is an array of strings, then the strings * represent names of services to be injected into the function. * ```js * // Given * var MyController = function(obfuscatedScope, obfuscatedRoute) { * // ... * } * // Define function dependencies * MyController['$inject'] = ['$scope', '$route']; * * // Then * expect(injector.annotate(MyController)).toEqual(['$scope', '$route']); * ``` * * # The array notation * * It is often desirable to inline Injected functions and that's when setting the `$inject` property * is very inconvenient. In these situations using the array notation to specify the dependencies in * a way that survives minification is a better choice: * * ```js * // We wish to write this (not minification / obfuscation safe) * injector.invoke(function($compile, $rootScope) { * // ... * }); * * // We are forced to write break inlining * var tmpFn = function(obfuscatedCompile, obfuscatedRootScope) { * // ... * }; * tmpFn.$inject = ['$compile', '$rootScope']; * injector.invoke(tmpFn); * * // To better support inline function the inline annotation is supported * injector.invoke(['$compile', '$rootScope', function(obfCompile, obfRootScope) { * // ... * }]); * * // Therefore * expect(injector.annotate( * ['$compile', '$rootScope', function(obfus_$compile, obfus_$rootScope) {}]) * ).toEqual(['$compile', '$rootScope']); * ``` * * @param {Function|Array.} fn Function for which dependent service names need to * be retrieved as described above. * * @param {boolean=} [strictDi=false] Disallow argument name annotation inference. * * @returns {Array.} The names of the services which the function requires. */ /** * @ngdoc service * @name $provide * * @description * * The {@link auto.$provide $provide} service has a number of methods for registering components * with the {@link auto.$injector $injector}. Many of these functions are also exposed on * {@link angular.Module}. * * An Angular **service** is a singleton object created by a **service factory**. These **service * factories** are functions which, in turn, are created by a **service provider**. * The **service providers** are constructor functions. When instantiated they must contain a * property called `$get`, which holds the **service factory** function. * * When you request a service, the {@link auto.$injector $injector} is responsible for finding the * correct **service provider**, instantiating it and then calling its `$get` **service factory** * function to get the instance of the **service**. * * Often services have no configuration options and there is no need to add methods to the service * provider. The provider will be no more than a constructor function with a `$get` property. For * these cases the {@link auto.$provide $provide} service has additional helper methods to register * services without specifying a provider. * * * {@link auto.$provide#provider provider(name, provider)} - registers a **service provider** with the * {@link auto.$injector $injector} * * {@link auto.$provide#constant constant(name, obj)} - registers a value/object that can be accessed by * providers and services. * * {@link auto.$provide#value value(name, obj)} - registers a value/object that can only be accessed by * services, not providers. * * {@link auto.$provide#factory factory(name, fn)} - registers a service **factory function** * that will be wrapped in a **service provider** object, whose `$get` property will contain the * given factory function. * * {@link auto.$provide#service service(name, Fn)} - registers a **constructor function** * that will be wrapped in a **service provider** object, whose `$get` property will instantiate * a new object using the given constructor function. * * {@link auto.$provide#decorator decorator(name, decorFn)} - registers a **decorator function** that * will be able to modify or replace the implementation of another service. * * See the individual methods for more information and examples. */ /** * @ngdoc method * @name $provide#provider * @description * * Register a **provider function** with the {@link auto.$injector $injector}. Provider functions * are constructor functions, whose instances are responsible for "providing" a factory for a * service. * * Service provider names start with the name of the service they provide followed by `Provider`. * For example, the {@link ng.$log $log} service has a provider called * {@link ng.$logProvider $logProvider}. * * Service provider objects can have additional methods which allow configuration of the provider * and its service. Importantly, you can configure what kind of service is created by the `$get` * method, or how that service will act. For example, the {@link ng.$logProvider $logProvider} has a * method {@link ng.$logProvider#debugEnabled debugEnabled} * which lets you specify whether the {@link ng.$log $log} service will log debug messages to the * console or not. * * @param {string} name The name of the instance. NOTE: the provider will be available under `name + 'Provider'` key. * @param {(Object|function())} provider If the provider is: * * - `Object`: then it should have a `$get` method. The `$get` method will be invoked using * {@link auto.$injector#invoke $injector.invoke()} when an instance needs to be created. * - `Constructor`: a new instance of the provider will be created using * {@link auto.$injector#instantiate $injector.instantiate()}, then treated as `object`. * * @returns {Object} registered provider instance * @example * * The following example shows how to create a simple event tracking service and register it using * {@link auto.$provide#provider $provide.provider()}. * * ```js * // Define the eventTracker provider * function EventTrackerProvider() { * var trackingUrl = '/track'; * * // A provider method for configuring where the tracked events should been saved * this.setTrackingUrl = function(url) { * trackingUrl = url; * }; * * // The service factory function * this.$get = ['$http', function($http) { * var trackedEvents = {}; * return { * // Call this to track an event * event: function(event) { * var count = trackedEvents[event] || 0; * count += 1; * trackedEvents[event] = count; * return count; * }, * // Call this to save the tracked events to the trackingUrl * save: function() { * $http.post(trackingUrl, trackedEvents); * } * }; * }]; * } * * describe('eventTracker', function() { * var postSpy; * * beforeEach(module(function($provide) { * // Register the eventTracker provider * $provide.provider('eventTracker', EventTrackerProvider); * })); * * beforeEach(module(function(eventTrackerProvider) { * // Configure eventTracker provider * eventTrackerProvider.setTrackingUrl('/custom-track'); * })); * * it('tracks events', inject(function(eventTracker) { * expect(eventTracker.event('login')).toEqual(1); * expect(eventTracker.event('login')).toEqual(2); * })); * * it('saves to the tracking url', inject(function(eventTracker, $http) { * postSpy = spyOn($http, 'post'); * eventTracker.event('login'); * eventTracker.save(); * expect(postSpy).toHaveBeenCalled(); * expect(postSpy.mostRecentCall.args[0]).not.toEqual('/track'); * expect(postSpy.mostRecentCall.args[0]).toEqual('/custom-track'); * expect(postSpy.mostRecentCall.args[1]).toEqual({ 'login': 1 }); * })); * }); * ``` */ /** * @ngdoc method * @name $provide#factory * @description * * Register a **service factory**, which will be called to return the service instance. * This is short for registering a service where its provider consists of only a `$get` property, * which is the given service factory function. * You should use {@link auto.$provide#factory $provide.factory(getFn)} if you do not need to * configure your service in a provider. * * @param {string} name The name of the instance. * @param {Function|Array.} $getFn The injectable $getFn for the instance creation. * Internally this is a short hand for `$provide.provider(name, {$get: $getFn})`. * @returns {Object} registered provider instance * * @example * Here is an example of registering a service * ```js * $provide.factory('ping', ['$http', function($http) { * return function ping() { * return $http.send('/ping'); * }; * }]); * ``` * You would then inject and use this service like this: * ```js * someModule.controller('Ctrl', ['ping', function(ping) { * ping(); * }]); * ``` */ /** * @ngdoc method * @name $provide#service * @description * * Register a **service constructor**, which will be invoked with `new` to create the service * instance. * This is short for registering a service where its provider's `$get` property is a factory * function that returns an instance instantiated by the injector from the service constructor * function. * * Internally it looks a bit like this: * * ``` * { * $get: function() { * return $injector.instantiate(constructor); * } * } * ``` * * * You should use {@link auto.$provide#service $provide.service(class)} if you define your service * as a type/class. * * @param {string} name The name of the instance. * @param {Function|Array.} constructor An injectable class (constructor function) * that will be instantiated. * @returns {Object} registered provider instance * * @example * Here is an example of registering a service using * {@link auto.$provide#service $provide.service(class)}. * ```js * var Ping = function($http) { * this.$http = $http; * }; * * Ping.$inject = ['$http']; * * Ping.prototype.send = function() { * return this.$http.get('/ping'); * }; * $provide.service('ping', Ping); * ``` * You would then inject and use this service like this: * ```js * someModule.controller('Ctrl', ['ping', function(ping) { * ping.send(); * }]); * ``` */ /** * @ngdoc method * @name $provide#value * @description * * Register a **value service** with the {@link auto.$injector $injector}, such as a string, a * number, an array, an object or a function. This is short for registering a service where its * provider's `$get` property is a factory function that takes no arguments and returns the **value * service**. That also means it is not possible to inject other services into a value service. * * Value services are similar to constant services, except that they cannot be injected into a * module configuration function (see {@link angular.Module#config}) but they can be overridden by * an Angular {@link auto.$provide#decorator decorator}. * * @param {string} name The name of the instance. * @param {*} value The value. * @returns {Object} registered provider instance * * @example * Here are some examples of creating value services. * ```js * $provide.value('ADMIN_USER', 'admin'); * * $provide.value('RoleLookup', { admin: 0, writer: 1, reader: 2 }); * * $provide.value('halfOf', function(value) { * return value / 2; * }); * ``` */ /** * @ngdoc method * @name $provide#constant * @description * * Register a **constant service** with the {@link auto.$injector $injector}, such as a string, * a number, an array, an object or a function. Like the {@link auto.$provide#value value}, it is not * possible to inject other services into a constant. * * But unlike {@link auto.$provide#value value}, a constant can be * injected into a module configuration function (see {@link angular.Module#config}) and it cannot * be overridden by an Angular {@link auto.$provide#decorator decorator}. * * @param {string} name The name of the constant. * @param {*} value The constant value. * @returns {Object} registered instance * * @example * Here a some examples of creating constants: * ```js * $provide.constant('SHARD_HEIGHT', 306); * * $provide.constant('MY_COLOURS', ['red', 'blue', 'grey']); * * $provide.constant('double', function(value) { * return value * 2; * }); * ``` */ /** * @ngdoc method * @name $provide#decorator * @description * * Register a **decorator function** with the {@link auto.$injector $injector}. A decorator function * intercepts the creation of a service, allowing it to override or modify the behavior of the * service. The return value of the decorator function may be the original service, or a new service * that replaces (or wraps and delegates to) the original service. * * You can find out more about using decorators in the {@link guide/decorators} guide. * * @param {string} name The name of the service to decorate. * @param {Function|Array.} decorator This function will be invoked when the service needs to be * provided and should return the decorated service instance. The function is called using * the {@link auto.$injector#invoke injector.invoke} method and is therefore fully injectable. * Local injection arguments: * * * `$delegate` - The original service instance, which can be replaced, monkey patched, configured, * decorated or delegated to. * * @example * Here we decorate the {@link ng.$log $log} service to convert warnings to errors by intercepting * calls to {@link ng.$log#error $log.warn()}. * ```js * $provide.decorator('$log', ['$delegate', function($delegate) { * $delegate.warn = $delegate.error; * return $delegate; * }]); * ``` */ function createInjector(modulesToLoad, strictDi) { strictDi = (strictDi === true); var INSTANTIATING = {}, providerSuffix = 'Provider', path = [], loadedModules = new HashMap([], true), providerCache = { $provide: { provider: supportObject(provider), factory: supportObject(factory), service: supportObject(service), value: supportObject(value), constant: supportObject(constant), decorator: decorator } }, providerInjector = (providerCache.$injector = createInternalInjector(providerCache, function(serviceName, caller) { if (angular.isString(caller)) { path.push(caller); } throw $injectorMinErr('unpr', "Unknown provider: {0}", path.join(' <- ')); })), instanceCache = {}, protoInstanceInjector = createInternalInjector(instanceCache, function(serviceName, caller) { var provider = providerInjector.get(serviceName + providerSuffix, caller); return instanceInjector.invoke( provider.$get, provider, undefined, serviceName); }), instanceInjector = protoInstanceInjector; providerCache['$injector' + providerSuffix] = { $get: valueFn(protoInstanceInjector) }; var runBlocks = loadModules(modulesToLoad); instanceInjector = protoInstanceInjector.get('$injector'); instanceInjector.strictDi = strictDi; forEach(runBlocks, function(fn) { if (fn) instanceInjector.invoke(fn); }); return instanceInjector; //////////////////////////////////// // $provider //////////////////////////////////// function supportObject(delegate) { return function(key, value) { if (isObject(key)) { forEach(key, reverseParams(delegate)); } else { return delegate(key, value); } }; } function provider(name, provider_) { assertNotHasOwnProperty(name, 'service'); if (isFunction(provider_) || isArray(provider_)) { provider_ = providerInjector.instantiate(provider_); } if (!provider_.$get) { throw $injectorMinErr('pget', "Provider '{0}' must define $get factory method.", name); } return providerCache[name + providerSuffix] = provider_; } function enforceReturnValue(name, factory) { return function enforcedReturnValue() { var result = instanceInjector.invoke(factory, this); if (isUndefined(result)) { throw $injectorMinErr('undef', "Provider '{0}' must return a value from $get factory method.", name); } return result; }; } function factory(name, factoryFn, enforce) { return provider(name, { $get: enforce !== false ? enforceReturnValue(name, factoryFn) : factoryFn }); } function service(name, constructor) { return factory(name, ['$injector', function($injector) { return $injector.instantiate(constructor); }]); } function value(name, val) { return factory(name, valueFn(val), false); } function constant(name, value) { assertNotHasOwnProperty(name, 'constant'); providerCache[name] = value; instanceCache[name] = value; } function decorator(serviceName, decorFn) { var origProvider = providerInjector.get(serviceName + providerSuffix), orig$get = origProvider.$get; origProvider.$get = function() { var origInstance = instanceInjector.invoke(orig$get, origProvider); return instanceInjector.invoke(decorFn, null, {$delegate: origInstance}); }; } //////////////////////////////////// // Module Loading //////////////////////////////////// function loadModules(modulesToLoad) { assertArg(isUndefined(modulesToLoad) || isArray(modulesToLoad), 'modulesToLoad', 'not an array'); var runBlocks = [], moduleFn; forEach(modulesToLoad, function(module) { if (loadedModules.get(module)) return; loadedModules.put(module, true); function runInvokeQueue(queue) { var i, ii; for (i = 0, ii = queue.length; i < ii; i++) { var invokeArgs = queue[i], provider = providerInjector.get(invokeArgs[0]); provider[invokeArgs[1]].apply(provider, invokeArgs[2]); } } try { if (isString(module)) { moduleFn = angularModule(module); runBlocks = runBlocks.concat(loadModules(moduleFn.requires)).concat(moduleFn._runBlocks); runInvokeQueue(moduleFn._invokeQueue); runInvokeQueue(moduleFn._configBlocks); } else if (isFunction(module)) { runBlocks.push(providerInjector.invoke(module)); } else if (isArray(module)) { runBlocks.push(providerInjector.invoke(module)); } else { assertArgFn(module, 'module'); } } catch (e) { if (isArray(module)) { module = module[module.length - 1]; } if (e.message && e.stack && e.stack.indexOf(e.message) == -1) { // Safari & FF's stack traces don't contain error.message content // unlike those of Chrome and IE // So if stack doesn't contain message, we create a new string that contains both. // Since error.stack is read-only in Safari, I'm overriding e and not e.stack here. /* jshint -W022 */ e = e.message + '\n' + e.stack; } throw $injectorMinErr('modulerr', "Failed to instantiate module {0} due to:\n{1}", module, e.stack || e.message || e); } }); return runBlocks; } //////////////////////////////////// // internal Injector //////////////////////////////////// function createInternalInjector(cache, factory) { function getService(serviceName, caller) { if (cache.hasOwnProperty(serviceName)) { if (cache[serviceName] === INSTANTIATING) { throw $injectorMinErr('cdep', 'Circular dependency found: {0}', serviceName + ' <- ' + path.join(' <- ')); } return cache[serviceName]; } else { try { path.unshift(serviceName); cache[serviceName] = INSTANTIATING; return cache[serviceName] = factory(serviceName, caller); } catch (err) { if (cache[serviceName] === INSTANTIATING) { delete cache[serviceName]; } throw err; } finally { path.shift(); } } } function injectionArgs(fn, locals, serviceName) { var args = [], $inject = createInjector.$$annotate(fn, strictDi, serviceName); for (var i = 0, length = $inject.length; i < length; i++) { var key = $inject[i]; if (typeof key !== 'string') { throw $injectorMinErr('itkn', 'Incorrect injection token! Expected service name as string, got {0}', key); } args.push(locals && locals.hasOwnProperty(key) ? locals[key] : getService(key, serviceName)); } return args; } function isClass(func) { // IE 9-11 do not support classes and IE9 leaks with the code below. if (msie <= 11) { return false; } // Support: Edge 12-13 only // See: https://developer.microsoft.com/en-us/microsoft-edge/platform/issues/6156135/ return typeof func === 'function' && /^(?:class\b|constructor\()/.test(stringifyFn(func)); } function invoke(fn, self, locals, serviceName) { if (typeof locals === 'string') { serviceName = locals; locals = null; } var args = injectionArgs(fn, locals, serviceName); if (isArray(fn)) { fn = fn[fn.length - 1]; } if (!isClass(fn)) { // http://jsperf.com/angularjs-invoke-apply-vs-switch // #5388 return fn.apply(self, args); } else { args.unshift(null); return new (Function.prototype.bind.apply(fn, args))(); } } function instantiate(Type, locals, serviceName) { // Check if Type is annotated and use just the given function at n-1 as parameter // e.g. someModule.factory('greeter', ['$window', function(renamed$window) {}]); var ctor = (isArray(Type) ? Type[Type.length - 1] : Type); var args = injectionArgs(Type, locals, serviceName); // Empty object at position 0 is ignored for invocation with `new`, but required. args.unshift(null); return new (Function.prototype.bind.apply(ctor, args))(); } return { invoke: invoke, instantiate: instantiate, get: getService, annotate: createInjector.$$annotate, has: function(name) { return providerCache.hasOwnProperty(name + providerSuffix) || cache.hasOwnProperty(name); } }; } } createInjector.$$annotate = annotate; /** * @ngdoc provider * @name $anchorScrollProvider * * @description * Use `$anchorScrollProvider` to disable automatic scrolling whenever * {@link ng.$location#hash $location.hash()} changes. */ function $AnchorScrollProvider() { var autoScrollingEnabled = true; /** * @ngdoc method * @name $anchorScrollProvider#disableAutoScrolling * * @description * By default, {@link ng.$anchorScroll $anchorScroll()} will automatically detect changes to * {@link ng.$location#hash $location.hash()} and scroll to the element matching the new hash.
* Use this method to disable automatic scrolling. * * If automatic scrolling is disabled, one must explicitly call * {@link ng.$anchorScroll $anchorScroll()} in order to scroll to the element related to the * current hash. */ this.disableAutoScrolling = function() { autoScrollingEnabled = false; }; /** * @ngdoc service * @name $anchorScroll * @kind function * @requires $window * @requires $location * @requires $rootScope * * @description * When called, it scrolls to the element related to the specified `hash` or (if omitted) to the * current value of {@link ng.$location#hash $location.hash()}, according to the rules specified * in the * [HTML5 spec](http://www.w3.org/html/wg/drafts/html/master/browsers.html#an-indicated-part-of-the-document). * * It also watches the {@link ng.$location#hash $location.hash()} and automatically scrolls to * match any anchor whenever it changes. This can be disabled by calling * {@link ng.$anchorScrollProvider#disableAutoScrolling $anchorScrollProvider.disableAutoScrolling()}. * * Additionally, you can use its {@link ng.$anchorScroll#yOffset yOffset} property to specify a * vertical scroll-offset (either fixed or dynamic). * * @param {string=} hash The hash specifying the element to scroll to. If omitted, the value of * {@link ng.$location#hash $location.hash()} will be used. * * @property {(number|function|jqLite)} yOffset * If set, specifies a vertical scroll-offset. This is often useful when there are fixed * positioned elements at the top of the page, such as navbars, headers etc. * * `yOffset` can be specified in various ways: * - **number**: A fixed number of pixels to be used as offset.

* - **function**: A getter function called everytime `$anchorScroll()` is executed. Must return * a number representing the offset (in pixels).

* - **jqLite**: A jqLite/jQuery element to be used for specifying the offset. The distance from * the top of the page to the element's bottom will be used as offset.
* **Note**: The element will be taken into account only as long as its `position` is set to * `fixed`. This option is useful, when dealing with responsive navbars/headers that adjust * their height and/or positioning according to the viewport's size. * *
*
* In order for `yOffset` to work properly, scrolling should take place on the document's root and * not some child element. *
* * @example
Go to bottom You're at the bottom!
angular.module('anchorScrollExample', []) .controller('ScrollController', ['$scope', '$location', '$anchorScroll', function ($scope, $location, $anchorScroll) { $scope.gotoBottom = function() { // set the location.hash to the id of // the element you wish to scroll to. $location.hash('bottom'); // call $anchorScroll() $anchorScroll(); }; }]); #scrollArea { height: 280px; overflow: auto; } #bottom { display: block; margin-top: 2000px; } * *
* The example below illustrates the use of a vertical scroll-offset (specified as a fixed value). * See {@link ng.$anchorScroll#yOffset $anchorScroll.yOffset} for more details. * * @example
Go to anchor {{x}}
Anchor {{x}} of 5
angular.module('anchorScrollOffsetExample', []) .run(['$anchorScroll', function($anchorScroll) { $anchorScroll.yOffset = 50; // always scroll by 50 extra pixels }]) .controller('headerCtrl', ['$anchorScroll', '$location', '$scope', function ($anchorScroll, $location, $scope) { $scope.gotoAnchor = function(x) { var newHash = 'anchor' + x; if ($location.hash() !== newHash) { // set the $location.hash to `newHash` and // $anchorScroll will automatically scroll to it $location.hash('anchor' + x); } else { // call $anchorScroll() explicitly, // since $location.hash hasn't changed $anchorScroll(); } }; } ]); body { padding-top: 50px; } .anchor { border: 2px dashed DarkOrchid; padding: 10px 10px 200px 10px; } .fixed-header { background-color: rgba(0, 0, 0, 0.2); height: 50px; position: fixed; top: 0; left: 0; right: 0; } .fixed-header > a { display: inline-block; margin: 5px 15px; } */ this.$get = ['$window', '$location', '$rootScope', function($window, $location, $rootScope) { var document = $window.document; // Helper function to get first anchor from a NodeList // (using `Array#some()` instead of `angular#forEach()` since it's more performant // and working in all supported browsers.) function getFirstAnchor(list) { var result = null; Array.prototype.some.call(list, function(element) { if (nodeName_(element) === 'a') { result = element; return true; } }); return result; } function getYOffset() { var offset = scroll.yOffset; if (isFunction(offset)) { offset = offset(); } else if (isElement(offset)) { var elem = offset[0]; var style = $window.getComputedStyle(elem); if (style.position !== 'fixed') { offset = 0; } else { offset = elem.getBoundingClientRect().bottom; } } else if (!isNumber(offset)) { offset = 0; } return offset; } function scrollTo(elem) { if (elem) { elem.scrollIntoView(); var offset = getYOffset(); if (offset) { // `offset` is the number of pixels we should scroll UP in order to align `elem` properly. // This is true ONLY if the call to `elem.scrollIntoView()` initially aligns `elem` at the // top of the viewport. // // IF the number of pixels from the top of `elem` to the end of the page's content is less // than the height of the viewport, then `elem.scrollIntoView()` will align the `elem` some // way down the page. // // This is often the case for elements near the bottom of the page. // // In such cases we do not need to scroll the whole `offset` up, just the difference between // the top of the element and the offset, which is enough to align the top of `elem` at the // desired position. var elemTop = elem.getBoundingClientRect().top; $window.scrollBy(0, elemTop - offset); } } else { $window.scrollTo(0, 0); } } function scroll(hash) { hash = isString(hash) ? hash : $location.hash(); var elm; // empty hash, scroll to the top of the page if (!hash) scrollTo(null); // element with given id else if ((elm = document.getElementById(hash))) scrollTo(elm); // first anchor with given name :-D else if ((elm = getFirstAnchor(document.getElementsByName(hash)))) scrollTo(elm); // no element and hash == 'top', scroll to the top of the page else if (hash === 'top') scrollTo(null); } // does not scroll when user clicks on anchor link that is currently on // (no url change, no $location.hash() change), browser native does scroll if (autoScrollingEnabled) { $rootScope.$watch(function autoScrollWatch() {return $location.hash();}, function autoScrollWatchAction(newVal, oldVal) { // skip the initial scroll if $location.hash is empty if (newVal === oldVal && newVal === '') return; jqLiteDocumentLoaded(function() { $rootScope.$evalAsync(scroll); }); }); } return scroll; }]; } var $animateMinErr = minErr('$animate'); var ELEMENT_NODE = 1; var NG_ANIMATE_CLASSNAME = 'ng-animate'; function mergeClasses(a,b) { if (!a && !b) return ''; if (!a) return b; if (!b) return a; if (isArray(a)) a = a.join(' '); if (isArray(b)) b = b.join(' '); return a + ' ' + b; } function extractElementNode(element) { for (var i = 0; i < element.length; i++) { var elm = element[i]; if (elm.nodeType === ELEMENT_NODE) { return elm; } } } function splitClasses(classes) { if (isString(classes)) { classes = classes.split(' '); } // Use createMap() to prevent class assumptions involving property names in // Object.prototype var obj = createMap(); forEach(classes, function(klass) { // sometimes the split leaves empty string values // incase extra spaces were applied to the options if (klass.length) { obj[klass] = true; } }); return obj; } // if any other type of options value besides an Object value is // passed into the $animate.method() animation then this helper code // will be run which will ignore it. While this patch is not the // greatest solution to this, a lot of existing plugins depend on // $animate to either call the callback (< 1.2) or return a promise // that can be changed. This helper function ensures that the options // are wiped clean incase a callback function is provided. function prepareAnimateOptions(options) { return isObject(options) ? options : {}; } var $$CoreAnimateJsProvider = function() { this.$get = noop; }; // this is prefixed with Core since it conflicts with // the animateQueueProvider defined in ngAnimate/animateQueue.js var $$CoreAnimateQueueProvider = function() { var postDigestQueue = new HashMap(); var postDigestElements = []; this.$get = ['$$AnimateRunner', '$rootScope', function($$AnimateRunner, $rootScope) { return { enabled: noop, on: noop, off: noop, pin: noop, push: function(element, event, options, domOperation) { domOperation && domOperation(); options = options || {}; options.from && element.css(options.from); options.to && element.css(options.to); if (options.addClass || options.removeClass) { addRemoveClassesPostDigest(element, options.addClass, options.removeClass); } var runner = new $$AnimateRunner(); // jshint ignore:line // since there are no animations to run the runner needs to be // notified that the animation call is complete. runner.complete(); return runner; } }; function updateData(data, classes, value) { var changed = false; if (classes) { classes = isString(classes) ? classes.split(' ') : isArray(classes) ? classes : []; forEach(classes, function(className) { if (className) { changed = true; data[className] = value; } }); } return changed; } function handleCSSClassChanges() { forEach(postDigestElements, function(element) { var data = postDigestQueue.get(element); if (data) { var existing = splitClasses(element.attr('class')); var toAdd = ''; var toRemove = ''; forEach(data, function(status, className) { var hasClass = !!existing[className]; if (status !== hasClass) { if (status) { toAdd += (toAdd.length ? ' ' : '') + className; } else { toRemove += (toRemove.length ? ' ' : '') + className; } } }); forEach(element, function(elm) { toAdd && jqLiteAddClass(elm, toAdd); toRemove && jqLiteRemoveClass(elm, toRemove); }); postDigestQueue.remove(element); } }); postDigestElements.length = 0; } function addRemoveClassesPostDigest(element, add, remove) { var data = postDigestQueue.get(element) || {}; var classesAdded = updateData(data, add, true); var classesRemoved = updateData(data, remove, false); if (classesAdded || classesRemoved) { postDigestQueue.put(element, data); postDigestElements.push(element); if (postDigestElements.length === 1) { $rootScope.$$postDigest(handleCSSClassChanges); } } } }]; }; /** * @ngdoc provider * @name $animateProvider * * @description * Default implementation of $animate that doesn't perform any animations, instead just * synchronously performs DOM updates and resolves the returned runner promise. * * In order to enable animations the `ngAnimate` module has to be loaded. * * To see the functional implementation check out `src/ngAnimate/animate.js`. */ var $AnimateProvider = ['$provide', function($provide) { var provider = this; this.$$registeredAnimations = Object.create(null); /** * @ngdoc method * @name $animateProvider#register * * @description * Registers a new injectable animation factory function. The factory function produces the * animation object which contains callback functions for each event that is expected to be * animated. * * * `eventFn`: `function(element, ... , doneFunction, options)` * The element to animate, the `doneFunction` and the options fed into the animation. Depending * on the type of animation additional arguments will be injected into the animation function. The * list below explains the function signatures for the different animation methods: * * - setClass: function(element, addedClasses, removedClasses, doneFunction, options) * - addClass: function(element, addedClasses, doneFunction, options) * - removeClass: function(element, removedClasses, doneFunction, options) * - enter, leave, move: function(element, doneFunction, options) * - animate: function(element, fromStyles, toStyles, doneFunction, options) * * Make sure to trigger the `doneFunction` once the animation is fully complete. * * ```js * return { * //enter, leave, move signature * eventFn : function(element, done, options) { * //code to run the animation * //once complete, then run done() * return function endFunction(wasCancelled) { * //code to cancel the animation * } * } * } * ``` * * @param {string} name The name of the animation (this is what the class-based CSS value will be compared to). * @param {Function} factory The factory function that will be executed to return the animation * object. */ this.register = function(name, factory) { if (name && name.charAt(0) !== '.') { throw $animateMinErr('notcsel', "Expecting class selector starting with '.' got '{0}'.", name); } var key = name + '-animation'; provider.$$registeredAnimations[name.substr(1)] = key; $provide.factory(key, factory); }; /** * @ngdoc method * @name $animateProvider#classNameFilter * * @description * Sets and/or returns the CSS class regular expression that is checked when performing * an animation. Upon bootstrap the classNameFilter value is not set at all and will * therefore enable $animate to attempt to perform an animation on any element that is triggered. * When setting the `classNameFilter` value, animations will only be performed on elements * that successfully match the filter expression. This in turn can boost performance * for low-powered devices as well as applications containing a lot of structural operations. * @param {RegExp=} expression The className expression which will be checked against all animations * @return {RegExp} The current CSS className expression value. If null then there is no expression value */ this.classNameFilter = function(expression) { if (arguments.length === 1) { this.$$classNameFilter = (expression instanceof RegExp) ? expression : null; if (this.$$classNameFilter) { var reservedRegex = new RegExp("(\\s+|\\/)" + NG_ANIMATE_CLASSNAME + "(\\s+|\\/)"); if (reservedRegex.test(this.$$classNameFilter.toString())) { throw $animateMinErr('nongcls','$animateProvider.classNameFilter(regex) prohibits accepting a regex value which matches/contains the "{0}" CSS class.', NG_ANIMATE_CLASSNAME); } } } return this.$$classNameFilter; }; this.$get = ['$$animateQueue', function($$animateQueue) { function domInsert(element, parentElement, afterElement) { // if for some reason the previous element was removed // from the dom sometime before this code runs then let's // just stick to using the parent element as the anchor if (afterElement) { var afterNode = extractElementNode(afterElement); if (afterNode && !afterNode.parentNode && !afterNode.previousElementSibling) { afterElement = null; } } afterElement ? afterElement.after(element) : parentElement.prepend(element); } /** * @ngdoc service * @name $animate * @description The $animate service exposes a series of DOM utility methods that provide support * for animation hooks. The default behavior is the application of DOM operations, however, * when an animation is detected (and animations are enabled), $animate will do the heavy lifting * to ensure that animation runs with the triggered DOM operation. * * By default $animate doesn't trigger any animations. This is because the `ngAnimate` module isn't * included and only when it is active then the animation hooks that `$animate` triggers will be * functional. Once active then all structural `ng-` directives will trigger animations as they perform * their DOM-related operations (enter, leave and move). Other directives such as `ngClass`, * `ngShow`, `ngHide` and `ngMessages` also provide support for animations. * * It is recommended that the`$animate` service is always used when executing DOM-related procedures within directives. * * To learn more about enabling animation support, click here to visit the * {@link ngAnimate ngAnimate module page}. */ return { // we don't call it directly since non-existant arguments may // be interpreted as null within the sub enabled function /** * * @ngdoc method * @name $animate#on * @kind function * @description Sets up an event listener to fire whenever the animation event (enter, leave, move, etc...) * has fired on the given element or among any of its children. Once the listener is fired, the provided callback * is fired with the following params: * * ```js * $animate.on('enter', container, * function callback(element, phase) { * // cool we detected an enter animation within the container * } * ); * ``` * * @param {string} event the animation event that will be captured (e.g. enter, leave, move, addClass, removeClass, etc...) * @param {DOMElement} container the container element that will capture each of the animation events that are fired on itself * as well as among its children * @param {Function} callback the callback function that will be fired when the listener is triggered * * The arguments present in the callback function are: * * `element` - The captured DOM element that the animation was fired on. * * `phase` - The phase of the animation. The two possible phases are **start** (when the animation starts) and **close** (when it ends). */ on: $$animateQueue.on, /** * * @ngdoc method * @name $animate#off * @kind function * @description Deregisters an event listener based on the event which has been associated with the provided element. This method * can be used in three different ways depending on the arguments: * * ```js * // remove all the animation event listeners listening for `enter` * $animate.off('enter'); * * // remove listeners for all animation events from the container element * $animate.off(container); * * // remove all the animation event listeners listening for `enter` on the given element and its children * $animate.off('enter', container); * * // remove the event listener function provided by `callback` that is set * // to listen for `enter` on the given `container` as well as its children * $animate.off('enter', container, callback); * ``` * * @param {string|DOMElement} event|container the animation event (e.g. enter, leave, move, * addClass, removeClass, etc...), or the container element. If it is the element, all other * arguments are ignored. * @param {DOMElement=} container the container element the event listener was placed on * @param {Function=} callback the callback function that was registered as the listener */ off: $$animateQueue.off, /** * @ngdoc method * @name $animate#pin * @kind function * @description Associates the provided element with a host parent element to allow the element to be animated even if it exists * outside of the DOM structure of the Angular application. By doing so, any animation triggered via `$animate` can be issued on the * element despite being outside the realm of the application or within another application. Say for example if the application * was bootstrapped on an element that is somewhere inside of the `` tag, but we wanted to allow for an element to be situated * as a direct child of `document.body`, then this can be achieved by pinning the element via `$animate.pin(element)`. Keep in mind * that calling `$animate.pin(element, parentElement)` will not actually insert into the DOM anywhere; it will just create the association. * * Note that this feature is only active when the `ngAnimate` module is used. * * @param {DOMElement} element the external element that will be pinned * @param {DOMElement} parentElement the host parent element that will be associated with the external element */ pin: $$animateQueue.pin, /** * * @ngdoc method * @name $animate#enabled * @kind function * @description Used to get and set whether animations are enabled or not on the entire application or on an element and its children. This * function can be called in four ways: * * ```js * // returns true or false * $animate.enabled(); * * // changes the enabled state for all animations * $animate.enabled(false); * $animate.enabled(true); * * // returns true or false if animations are enabled for an element * $animate.enabled(element); * * // changes the enabled state for an element and its children * $animate.enabled(element, true); * $animate.enabled(element, false); * ``` * * @param {DOMElement=} element the element that will be considered for checking/setting the enabled state * @param {boolean=} enabled whether or not the animations will be enabled for the element * * @return {boolean} whether or not animations are enabled */ enabled: $$animateQueue.enabled, /** * @ngdoc method * @name $animate#cancel * @kind function * @description Cancels the provided animation. * * @param {Promise} animationPromise The animation promise that is returned when an animation is started. */ cancel: function(runner) { runner.end && runner.end(); }, /** * * @ngdoc method * @name $animate#enter * @kind function * @description Inserts the element into the DOM either after the `after` element (if provided) or * as the first child within the `parent` element and then triggers an animation. * A promise is returned that will be resolved during the next digest once the animation * has completed. * * @param {DOMElement} element the element which will be inserted into the DOM * @param {DOMElement} parent the parent element which will append the element as * a child (so long as the after element is not present) * @param {DOMElement=} after the sibling element after which the element will be appended * @param {object=} options an optional collection of options/styles that will be applied to the element. * The object can have the following properties: * * - **addClass** - `{string}` - space-separated CSS classes to add to element * - **from** - `{Object}` - CSS properties & values at the beginning of animation. Must have matching `to` * - **removeClass** - `{string}` - space-separated CSS classes to remove from element * - **to** - `{Object}` - CSS properties & values at end of animation. Must have matching `from` * * @return {Promise} the animation callback promise */ enter: function(element, parent, after, options) { parent = parent && jqLite(parent); after = after && jqLite(after); parent = parent || after.parent(); domInsert(element, parent, after); return $$animateQueue.push(element, 'enter', prepareAnimateOptions(options)); }, /** * * @ngdoc method * @name $animate#move * @kind function * @description Inserts (moves) the element into its new position in the DOM either after * the `after` element (if provided) or as the first child within the `parent` element * and then triggers an animation. A promise is returned that will be resolved * during the next digest once the animation has completed. * * @param {DOMElement} element the element which will be moved into the new DOM position * @param {DOMElement} parent the parent element which will append the element as * a child (so long as the after element is not present) * @param {DOMElement=} after the sibling element after which the element will be appended * @param {object=} options an optional collection of options/styles that will be applied to the element. * The object can have the following properties: * * - **addClass** - `{string}` - space-separated CSS classes to add to element * - **from** - `{Object}` - CSS properties & values at the beginning of animation. Must have matching `to` * - **removeClass** - `{string}` - space-separated CSS classes to remove from element * - **to** - `{Object}` - CSS properties & values at end of animation. Must have matching `from` * * @return {Promise} the animation callback promise */ move: function(element, parent, after, options) { parent = parent && jqLite(parent); after = after && jqLite(after); parent = parent || after.parent(); domInsert(element, parent, after); return $$animateQueue.push(element, 'move', prepareAnimateOptions(options)); }, /** * @ngdoc method * @name $animate#leave * @kind function * @description Triggers an animation and then removes the element from the DOM. * When the function is called a promise is returned that will be resolved during the next * digest once the animation has completed. * * @param {DOMElement} element the element which will be removed from the DOM * @param {object=} options an optional collection of options/styles that will be applied to the element. * The object can have the following properties: * * - **addClass** - `{string}` - space-separated CSS classes to add to element * - **from** - `{Object}` - CSS properties & values at the beginning of animation. Must have matching `to` * - **removeClass** - `{string}` - space-separated CSS classes to remove from element * - **to** - `{Object}` - CSS properties & values at end of animation. Must have matching `from` * * @return {Promise} the animation callback promise */ leave: function(element, options) { return $$animateQueue.push(element, 'leave', prepareAnimateOptions(options), function() { element.remove(); }); }, /** * @ngdoc method * @name $animate#addClass * @kind function * * @description Triggers an addClass animation surrounding the addition of the provided CSS class(es). Upon * execution, the addClass operation will only be handled after the next digest and it will not trigger an * animation if element already contains the CSS class or if the class is removed at a later step. * Note that class-based animations are treated differently compared to structural animations * (like enter, move and leave) since the CSS classes may be added/removed at different points * depending if CSS or JavaScript animations are used. * * @param {DOMElement} element the element which the CSS classes will be applied to * @param {string} className the CSS class(es) that will be added (multiple classes are separated via spaces) * @param {object=} options an optional collection of options/styles that will be applied to the element. * The object can have the following properties: * * - **addClass** - `{string}` - space-separated CSS classes to add to element * - **from** - `{Object}` - CSS properties & values at the beginning of animation. Must have matching `to` * - **removeClass** - `{string}` - space-separated CSS classes to remove from element * - **to** - `{Object}` - CSS properties & values at end of animation. Must have matching `from` * * @return {Promise} the animation callback promise */ addClass: function(element, className, options) { options = prepareAnimateOptions(options); options.addClass = mergeClasses(options.addclass, className); return $$animateQueue.push(element, 'addClass', options); }, /** * @ngdoc method * @name $animate#removeClass * @kind function * * @description Triggers a removeClass animation surrounding the removal of the provided CSS class(es). Upon * execution, the removeClass operation will only be handled after the next digest and it will not trigger an * animation if element does not contain the CSS class or if the class is added at a later step. * Note that class-based animations are treated differently compared to structural animations * (like enter, move and leave) since the CSS classes may be added/removed at different points * depending if CSS or JavaScript animations are used. * * @param {DOMElement} element the element which the CSS classes will be applied to * @param {string} className the CSS class(es) that will be removed (multiple classes are separated via spaces) * @param {object=} options an optional collection of options/styles that will be applied to the element. * The object can have the following properties: * * - **addClass** - `{string}` - space-separated CSS classes to add to element * - **from** - `{Object}` - CSS properties & values at the beginning of animation. Must have matching `to` * - **removeClass** - `{string}` - space-separated CSS classes to remove from element * - **to** - `{Object}` - CSS properties & values at end of animation. Must have matching `from` * * @return {Promise} the animation callback promise */ removeClass: function(element, className, options) { options = prepareAnimateOptions(options); options.removeClass = mergeClasses(options.removeClass, className); return $$animateQueue.push(element, 'removeClass', options); }, /** * @ngdoc method * @name $animate#setClass * @kind function * * @description Performs both the addition and removal of a CSS classes on an element and (during the process) * triggers an animation surrounding the class addition/removal. Much like `$animate.addClass` and * `$animate.removeClass`, `setClass` will only evaluate the classes being added/removed once a digest has * passed. Note that class-based animations are treated differently compared to structural animations * (like enter, move and leave) since the CSS classes may be added/removed at different points * depending if CSS or JavaScript animations are used. * * @param {DOMElement} element the element which the CSS classes will be applied to * @param {string} add the CSS class(es) that will be added (multiple classes are separated via spaces) * @param {string} remove the CSS class(es) that will be removed (multiple classes are separated via spaces) * @param {object=} options an optional collection of options/styles that will be applied to the element. * The object can have the following properties: * * - **addClass** - `{string}` - space-separated CSS classes to add to element * - **from** - `{Object}` - CSS properties & values at the beginning of animation. Must have matching `to` * - **removeClass** - `{string}` - space-separated CSS classes to remove from element * - **to** - `{Object}` - CSS properties & values at end of animation. Must have matching `from` * * @return {Promise} the animation callback promise */ setClass: function(element, add, remove, options) { options = prepareAnimateOptions(options); options.addClass = mergeClasses(options.addClass, add); options.removeClass = mergeClasses(options.removeClass, remove); return $$animateQueue.push(element, 'setClass', options); }, /** * @ngdoc method * @name $animate#animate * @kind function * * @description Performs an inline animation on the element which applies the provided to and from CSS styles to the element. * If any detected CSS transition, keyframe or JavaScript matches the provided className value, then the animation will take * on the provided styles. For example, if a transition animation is set for the given classNamem, then the provided `from` and * `to` styles will be applied alongside the given transition. If the CSS style provided in `from` does not have a corresponding * style in `to`, the style in `from` is applied immediately, and no animation is run. * If a JavaScript animation is detected then the provided styles will be given in as function parameters into the `animate` * method (or as part of the `options` parameter): * * ```js * ngModule.animation('.my-inline-animation', function() { * return { * animate : function(element, from, to, done, options) { * //animation * done(); * } * } * }); * ``` * * @param {DOMElement} element the element which the CSS styles will be applied to * @param {object} from the from (starting) CSS styles that will be applied to the element and across the animation. * @param {object} to the to (destination) CSS styles that will be applied to the element and across the animation. * @param {string=} className an optional CSS class that will be applied to the element for the duration of the animation. If * this value is left as empty then a CSS class of `ng-inline-animate` will be applied to the element. * (Note that if no animation is detected then this value will not be applied to the element.) * @param {object=} options an optional collection of options/styles that will be applied to the element. * The object can have the following properties: * * - **addClass** - `{string}` - space-separated CSS classes to add to element * - **from** - `{Object}` - CSS properties & values at the beginning of animation. Must have matching `to` * - **removeClass** - `{string}` - space-separated CSS classes to remove from element * - **to** - `{Object}` - CSS properties & values at end of animation. Must have matching `from` * * @return {Promise} the animation callback promise */ animate: function(element, from, to, className, options) { options = prepareAnimateOptions(options); options.from = options.from ? extend(options.from, from) : from; options.to = options.to ? extend(options.to, to) : to; className = className || 'ng-inline-animate'; options.tempClasses = mergeClasses(options.tempClasses, className); return $$animateQueue.push(element, 'animate', options); } }; }]; }]; var $$AnimateAsyncRunFactoryProvider = function() { this.$get = ['$$rAF', function($$rAF) { var waitQueue = []; function waitForTick(fn) { waitQueue.push(fn); if (waitQueue.length > 1) return; $$rAF(function() { for (var i = 0; i < waitQueue.length; i++) { waitQueue[i](); } waitQueue = []; }); } return function() { var passed = false; waitForTick(function() { passed = true; }); return function(callback) { passed ? callback() : waitForTick(callback); }; }; }]; }; var $$AnimateRunnerFactoryProvider = function() { this.$get = ['$q', '$sniffer', '$$animateAsyncRun', '$document', '$timeout', function($q, $sniffer, $$animateAsyncRun, $document, $timeout) { var INITIAL_STATE = 0; var DONE_PENDING_STATE = 1; var DONE_COMPLETE_STATE = 2; AnimateRunner.chain = function(chain, callback) { var index = 0; next(); function next() { if (index === chain.length) { callback(true); return; } chain[index](function(response) { if (response === false) { callback(false); return; } index++; next(); }); } }; AnimateRunner.all = function(runners, callback) { var count = 0; var status = true; forEach(runners, function(runner) { runner.done(onProgress); }); function onProgress(response) { status = status && response; if (++count === runners.length) { callback(status); } } }; function AnimateRunner(host) { this.setHost(host); var rafTick = $$animateAsyncRun(); var timeoutTick = function(fn) { $timeout(fn, 0, false); }; this._doneCallbacks = []; this._tick = function(fn) { var doc = $document[0]; // the document may not be ready or attached // to the module for some internal tests if (doc && doc.hidden) { timeoutTick(fn); } else { rafTick(fn); } }; this._state = 0; } AnimateRunner.prototype = { setHost: function(host) { this.host = host || {}; }, done: function(fn) { if (this._state === DONE_COMPLETE_STATE) { fn(); } else { this._doneCallbacks.push(fn); } }, progress: noop, getPromise: function() { if (!this.promise) { var self = this; this.promise = $q(function(resolve, reject) { self.done(function(status) { status === false ? reject() : resolve(); }); }); } return this.promise; }, then: function(resolveHandler, rejectHandler) { return this.getPromise().then(resolveHandler, rejectHandler); }, 'catch': function(handler) { return this.getPromise()['catch'](handler); }, 'finally': function(handler) { return this.getPromise()['finally'](handler); }, pause: function() { if (this.host.pause) { this.host.pause(); } }, resume: function() { if (this.host.resume) { this.host.resume(); } }, end: function() { if (this.host.end) { this.host.end(); } this._resolve(true); }, cancel: function() { if (this.host.cancel) { this.host.cancel(); } this._resolve(false); }, complete: function(response) { var self = this; if (self._state === INITIAL_STATE) { self._state = DONE_PENDING_STATE; self._tick(function() { self._resolve(response); }); } }, _resolve: function(response) { if (this._state !== DONE_COMPLETE_STATE) { forEach(this._doneCallbacks, function(fn) { fn(response); }); this._doneCallbacks.length = 0; this._state = DONE_COMPLETE_STATE; } } }; return AnimateRunner; }]; }; /** * @ngdoc service * @name $animateCss * @kind object * * @description * This is the core version of `$animateCss`. By default, only when the `ngAnimate` is included, * then the `$animateCss` service will actually perform animations. * * Click here {@link ngAnimate.$animateCss to read the documentation for $animateCss}. */ var $CoreAnimateCssProvider = function() { this.$get = ['$$rAF', '$q', '$$AnimateRunner', function($$rAF, $q, $$AnimateRunner) { return function(element, initialOptions) { // all of the animation functions should create // a copy of the options data, however, if a // parent service has already created a copy then // we should stick to using that var options = initialOptions || {}; if (!options.$$prepared) { options = copy(options); } // there is no point in applying the styles since // there is no animation that goes on at all in // this version of $animateCss. if (options.cleanupStyles) { options.from = options.to = null; } if (options.from) { element.css(options.from); options.from = null; } /* jshint newcap: false */ var closed, runner = new $$AnimateRunner(); return { start: run, end: run }; function run() { $$rAF(function() { applyAnimationContents(); if (!closed) { runner.complete(); } closed = true; }); return runner; } function applyAnimationContents() { if (options.addClass) { element.addClass(options.addClass); options.addClass = null; } if (options.removeClass) { element.removeClass(options.removeClass); options.removeClass = null; } if (options.to) { element.css(options.to); options.to = null; } } }; }]; }; /* global stripHash: true */ /** * ! This is a private undocumented service ! * * @name $browser * @requires $log * @description * This object has two goals: * * - hide all the global state in the browser caused by the window object * - abstract away all the browser specific features and inconsistencies * * For tests we provide {@link ngMock.$browser mock implementation} of the `$browser` * service, which can be used for convenient testing of the application without the interaction with * the real browser apis. */ /** * @param {object} window The global window object. * @param {object} document jQuery wrapped document. * @param {object} $log window.console or an object with the same interface. * @param {object} $sniffer $sniffer service */ function Browser(window, document, $log, $sniffer) { var self = this, location = window.location, history = window.history, setTimeout = window.setTimeout, clearTimeout = window.clearTimeout, pendingDeferIds = {}; self.isMock = false; var outstandingRequestCount = 0; var outstandingRequestCallbacks = []; // TODO(vojta): remove this temporary api self.$$completeOutstandingRequest = completeOutstandingRequest; self.$$incOutstandingRequestCount = function() { outstandingRequestCount++; }; /** * Executes the `fn` function(supports currying) and decrements the `outstandingRequestCallbacks` * counter. If the counter reaches 0, all the `outstandingRequestCallbacks` are executed. */ function completeOutstandingRequest(fn) { try { fn.apply(null, sliceArgs(arguments, 1)); } finally { outstandingRequestCount--; if (outstandingRequestCount === 0) { while (outstandingRequestCallbacks.length) { try { outstandingRequestCallbacks.pop()(); } catch (e) { $log.error(e); } } } } } function getHash(url) { var index = url.indexOf('#'); return index === -1 ? '' : url.substr(index); } /** * @private * Note: this method is used only by scenario runner * TODO(vojta): prefix this method with $$ ? * @param {function()} callback Function that will be called when no outstanding request */ self.notifyWhenNoOutstandingRequests = function(callback) { if (outstandingRequestCount === 0) { callback(); } else { outstandingRequestCallbacks.push(callback); } }; ////////////////////////////////////////////////////////////// // URL API ////////////////////////////////////////////////////////////// var cachedState, lastHistoryState, lastBrowserUrl = location.href, baseElement = document.find('base'), pendingLocation = null, getCurrentState = !$sniffer.history ? noop : function getCurrentState() { try { return history.state; } catch (e) { // MSIE can reportedly throw when there is no state (UNCONFIRMED). } }; cacheState(); lastHistoryState = cachedState; /** * @name $browser#url * * @description * GETTER: * Without any argument, this method just returns current value of location.href. * * SETTER: * With at least one argument, this method sets url to new value. * If html5 history api supported, pushState/replaceState is used, otherwise * location.href/location.replace is used. * Returns its own instance to allow chaining * * NOTE: this api is intended for use only by the $location service. Please use the * {@link ng.$location $location service} to change url. * * @param {string} url New url (when used as setter) * @param {boolean=} replace Should new url replace current history record? * @param {object=} state object to use with pushState/replaceState */ self.url = function(url, replace, state) { // In modern browsers `history.state` is `null` by default; treating it separately // from `undefined` would cause `$browser.url('/foo')` to change `history.state` // to undefined via `pushState`. Instead, let's change `undefined` to `null` here. if (isUndefined(state)) { state = null; } // Android Browser BFCache causes location, history reference to become stale. if (location !== window.location) location = window.location; if (history !== window.history) history = window.history; // setter if (url) { var sameState = lastHistoryState === state; // Don't change anything if previous and current URLs and states match. This also prevents // IE<10 from getting into redirect loop when in LocationHashbangInHtml5Url mode. // See https://github.com/angular/angular.js/commit/ffb2701 if (lastBrowserUrl === url && (!$sniffer.history || sameState)) { return self; } var sameBase = lastBrowserUrl && stripHash(lastBrowserUrl) === stripHash(url); lastBrowserUrl = url; lastHistoryState = state; // Don't use history API if only the hash changed // due to a bug in IE10/IE11 which leads // to not firing a `hashchange` nor `popstate` event // in some cases (see #9143). if ($sniffer.history && (!sameBase || !sameState)) { history[replace ? 'replaceState' : 'pushState'](state, '', url); cacheState(); // Do the assignment again so that those two variables are referentially identical. lastHistoryState = cachedState; } else { if (!sameBase) { pendingLocation = url; } if (replace) { location.replace(url); } else if (!sameBase) { location.href = url; } else { location.hash = getHash(url); } if (location.href !== url) { pendingLocation = url; } } if (pendingLocation) { pendingLocation = url; } return self; // getter } else { // - pendingLocation is needed as browsers don't allow to read out // the new location.href if a reload happened or if there is a bug like in iOS 9 (see // https://openradar.appspot.com/22186109). // - the replacement is a workaround for https://bugzilla.mozilla.org/show_bug.cgi?id=407172 return pendingLocation || location.href.replace(/%27/g,"'"); } }; /** * @name $browser#state * * @description * This method is a getter. * * Return history.state or null if history.state is undefined. * * @returns {object} state */ self.state = function() { return cachedState; }; var urlChangeListeners = [], urlChangeInit = false; function cacheStateAndFireUrlChange() { pendingLocation = null; cacheState(); fireUrlChange(); } // This variable should be used *only* inside the cacheState function. var lastCachedState = null; function cacheState() { // This should be the only place in $browser where `history.state` is read. cachedState = getCurrentState(); cachedState = isUndefined(cachedState) ? null : cachedState; // Prevent callbacks fo fire twice if both hashchange & popstate were fired. if (equals(cachedState, lastCachedState)) { cachedState = lastCachedState; } lastCachedState = cachedState; } function fireUrlChange() { if (lastBrowserUrl === self.url() && lastHistoryState === cachedState) { return; } lastBrowserUrl = self.url(); lastHistoryState = cachedState; forEach(urlChangeListeners, function(listener) { listener(self.url(), cachedState); }); } /** * @name $browser#onUrlChange * * @description * Register callback function that will be called, when url changes. * * It's only called when the url is changed from outside of angular: * - user types different url into address bar * - user clicks on history (forward/back) button * - user clicks on a link * * It's not called when url is changed by $browser.url() method * * The listener gets called with new url as parameter. * * NOTE: this api is intended for use only by the $location service. Please use the * {@link ng.$location $location service} to monitor url changes in angular apps. * * @param {function(string)} listener Listener function to be called when url changes. * @return {function(string)} Returns the registered listener fn - handy if the fn is anonymous. */ self.onUrlChange = function(callback) { // TODO(vojta): refactor to use node's syntax for events if (!urlChangeInit) { // We listen on both (hashchange/popstate) when available, as some browsers (e.g. Opera) // don't fire popstate when user change the address bar and don't fire hashchange when url // changed by push/replaceState // html5 history api - popstate event if ($sniffer.history) jqLite(window).on('popstate', cacheStateAndFireUrlChange); // hashchange event jqLite(window).on('hashchange', cacheStateAndFireUrlChange); urlChangeInit = true; } urlChangeListeners.push(callback); return callback; }; /** * @private * Remove popstate and hashchange handler from window. * * NOTE: this api is intended for use only by $rootScope. */ self.$$applicationDestroyed = function() { jqLite(window).off('hashchange popstate', cacheStateAndFireUrlChange); }; /** * Checks whether the url has changed outside of Angular. * Needs to be exported to be able to check for changes that have been done in sync, * as hashchange/popstate events fire in async. */ self.$$checkUrlChange = fireUrlChange; ////////////////////////////////////////////////////////////// // Misc API ////////////////////////////////////////////////////////////// /** * @name $browser#baseHref * * @description * Returns current * (always relative - without domain) * * @returns {string} The current base href */ self.baseHref = function() { var href = baseElement.attr('href'); return href ? href.replace(/^(https?\:)?\/\/[^\/]*/, '') : ''; }; /** * @name $browser#defer * @param {function()} fn A function, who's execution should be deferred. * @param {number=} [delay=0] of milliseconds to defer the function execution. * @returns {*} DeferId that can be used to cancel the task via `$browser.defer.cancel()`. * * @description * Executes a fn asynchronously via `setTimeout(fn, delay)`. * * Unlike when calling `setTimeout` directly, in test this function is mocked and instead of using * `setTimeout` in tests, the fns are queued in an array, which can be programmatically flushed * via `$browser.defer.flush()`. * */ self.defer = function(fn, delay) { var timeoutId; outstandingRequestCount++; timeoutId = setTimeout(function() { delete pendingDeferIds[timeoutId]; completeOutstandingRequest(fn); }, delay || 0); pendingDeferIds[timeoutId] = true; return timeoutId; }; /** * @name $browser#defer.cancel * * @description * Cancels a deferred task identified with `deferId`. * * @param {*} deferId Token returned by the `$browser.defer` function. * @returns {boolean} Returns `true` if the task hasn't executed yet and was successfully * canceled. */ self.defer.cancel = function(deferId) { if (pendingDeferIds[deferId]) { delete pendingDeferIds[deferId]; clearTimeout(deferId); completeOutstandingRequest(noop); return true; } return false; }; } function $BrowserProvider() { this.$get = ['$window', '$log', '$sniffer', '$document', function($window, $log, $sniffer, $document) { return new Browser($window, $document, $log, $sniffer); }]; } /** * @ngdoc service * @name $cacheFactory * * @description * Factory that constructs {@link $cacheFactory.Cache Cache} objects and gives access to * them. * * ```js * * var cache = $cacheFactory('cacheId'); * expect($cacheFactory.get('cacheId')).toBe(cache); * expect($cacheFactory.get('noSuchCacheId')).not.toBeDefined(); * * cache.put("key", "value"); * cache.put("another key", "another value"); * * // We've specified no options on creation * expect(cache.info()).toEqual({id: 'cacheId', size: 2}); * * ``` * * * @param {string} cacheId Name or id of the newly created cache. * @param {object=} options Options object that specifies the cache behavior. Properties: * * - `{number=}` `capacity` — turns the cache into LRU cache. * * @returns {object} Newly created cache object with the following set of methods: * * - `{object}` `info()` — Returns id, size, and options of cache. * - `{{*}}` `put({string} key, {*} value)` — Puts a new key-value pair into the cache and returns * it. * - `{{*}}` `get({string} key)` — Returns cached value for `key` or undefined for cache miss. * - `{void}` `remove({string} key)` — Removes a key-value pair from the cache. * - `{void}` `removeAll()` — Removes all cached values. * - `{void}` `destroy()` — Removes references to this cache from $cacheFactory. * * @example

Cached Values

:

Cache Info

:
angular.module('cacheExampleApp', []). controller('CacheController', ['$scope', '$cacheFactory', function($scope, $cacheFactory) { $scope.keys = []; $scope.cache = $cacheFactory('cacheId'); $scope.put = function(key, value) { if (angular.isUndefined($scope.cache.get(key))) { $scope.keys.push(key); } $scope.cache.put(key, angular.isUndefined(value) ? null : value); }; }]); p { margin: 10px 0 3px; } */ function $CacheFactoryProvider() { this.$get = function() { var caches = {}; function cacheFactory(cacheId, options) { if (cacheId in caches) { throw minErr('$cacheFactory')('iid', "CacheId '{0}' is already taken!", cacheId); } var size = 0, stats = extend({}, options, {id: cacheId}), data = createMap(), capacity = (options && options.capacity) || Number.MAX_VALUE, lruHash = createMap(), freshEnd = null, staleEnd = null; /** * @ngdoc type * @name $cacheFactory.Cache * * @description * A cache object used to store and retrieve data, primarily used by * {@link $http $http} and the {@link ng.directive:script script} directive to cache * templates and other data. * * ```js * angular.module('superCache') * .factory('superCache', ['$cacheFactory', function($cacheFactory) { * return $cacheFactory('super-cache'); * }]); * ``` * * Example test: * * ```js * it('should behave like a cache', inject(function(superCache) { * superCache.put('key', 'value'); * superCache.put('another key', 'another value'); * * expect(superCache.info()).toEqual({ * id: 'super-cache', * size: 2 * }); * * superCache.remove('another key'); * expect(superCache.get('another key')).toBeUndefined(); * * superCache.removeAll(); * expect(superCache.info()).toEqual({ * id: 'super-cache', * size: 0 * }); * })); * ``` */ return caches[cacheId] = { /** * @ngdoc method * @name $cacheFactory.Cache#put * @kind function * * @description * Inserts a named entry into the {@link $cacheFactory.Cache Cache} object to be * retrieved later, and incrementing the size of the cache if the key was not already * present in the cache. If behaving like an LRU cache, it will also remove stale * entries from the set. * * It will not insert undefined values into the cache. * * @param {string} key the key under which the cached data is stored. * @param {*} value the value to store alongside the key. If it is undefined, the key * will not be stored. * @returns {*} the value stored. */ put: function(key, value) { if (isUndefined(value)) return; if (capacity < Number.MAX_VALUE) { var lruEntry = lruHash[key] || (lruHash[key] = {key: key}); refresh(lruEntry); } if (!(key in data)) size++; data[key] = value; if (size > capacity) { this.remove(staleEnd.key); } return value; }, /** * @ngdoc method * @name $cacheFactory.Cache#get * @kind function * * @description * Retrieves named data stored in the {@link $cacheFactory.Cache Cache} object. * * @param {string} key the key of the data to be retrieved * @returns {*} the value stored. */ get: function(key) { if (capacity < Number.MAX_VALUE) { var lruEntry = lruHash[key]; if (!lruEntry) return; refresh(lruEntry); } return data[key]; }, /** * @ngdoc method * @name $cacheFactory.Cache#remove * @kind function * * @description * Removes an entry from the {@link $cacheFactory.Cache Cache} object. * * @param {string} key the key of the entry to be removed */ remove: function(key) { if (capacity < Number.MAX_VALUE) { var lruEntry = lruHash[key]; if (!lruEntry) return; if (lruEntry == freshEnd) freshEnd = lruEntry.p; if (lruEntry == staleEnd) staleEnd = lruEntry.n; link(lruEntry.n,lruEntry.p); delete lruHash[key]; } if (!(key in data)) return; delete data[key]; size--; }, /** * @ngdoc method * @name $cacheFactory.Cache#removeAll * @kind function * * @description * Clears the cache object of any entries. */ removeAll: function() { data = createMap(); size = 0; lruHash = createMap(); freshEnd = staleEnd = null; }, /** * @ngdoc method * @name $cacheFactory.Cache#destroy * @kind function * * @description * Destroys the {@link $cacheFactory.Cache Cache} object entirely, * removing it from the {@link $cacheFactory $cacheFactory} set. */ destroy: function() { data = null; stats = null; lruHash = null; delete caches[cacheId]; }, /** * @ngdoc method * @name $cacheFactory.Cache#info * @kind function * * @description * Retrieve information regarding a particular {@link $cacheFactory.Cache Cache}. * * @returns {object} an object with the following properties: *
    *
  • **id**: the id of the cache instance
    • *
  • **size**: the number of entries kept in the cache instance
    • *
  • **...**: any additional properties from the options object when creating the * cache.
    • *
*/ info: function() { return extend({}, stats, {size: size}); } }; /** * makes the `entry` the freshEnd of the LRU linked list */ function refresh(entry) { if (entry != freshEnd) { if (!staleEnd) { staleEnd = entry; } else if (staleEnd == entry) { staleEnd = entry.n; } link(entry.n, entry.p); link(entry, freshEnd); freshEnd = entry; freshEnd.n = null; } } /** * bidirectionally links two entries of the LRU linked list */ function link(nextEntry, prevEntry) { if (nextEntry != prevEntry) { if (nextEntry) nextEntry.p = prevEntry; //p stands for previous, 'prev' didn't minify if (prevEntry) prevEntry.n = nextEntry; //n stands for next, 'next' didn't minify } } } /** * @ngdoc method * @name $cacheFactory#info * * @description * Get information about all the caches that have been created * * @returns {Object} - key-value map of `cacheId` to the result of calling `cache#info` */ cacheFactory.info = function() { var info = {}; forEach(caches, function(cache, cacheId) { info[cacheId] = cache.info(); }); return info; }; /** * @ngdoc method * @name $cacheFactory#get * * @description * Get access to a cache object by the `cacheId` used when it was created. * * @param {string} cacheId Name or id of a cache to access. * @returns {object} Cache object identified by the cacheId or undefined if no such cache. */ cacheFactory.get = function(cacheId) { return caches[cacheId]; }; return cacheFactory; }; } /** * @ngdoc service * @name $templateCache * * @description * The first time a template is used, it is loaded in the template cache for quick retrieval. You * can load templates directly into the cache in a `script` tag, or by consuming the * `$templateCache` service directly. * * Adding via the `script` tag: * * ```html * * ``` * * **Note:** the `script` tag containing the template does not need to be included in the `head` of * the document, but it must be a descendent of the {@link ng.$rootElement $rootElement} (IE, * element with ng-app attribute), otherwise the template will be ignored. * * Adding via the `$templateCache` service: * * ```js * var myApp = angular.module('myApp', []); * myApp.run(function($templateCache) { * $templateCache.put('templateId.html', 'This is the content of the template'); * }); * ``` * * To retrieve the template later, simply use it in your HTML: * ```html *
* ``` * * or get it via Javascript: * ```js * $templateCache.get('templateId.html') * ``` * * See {@link ng.$cacheFactory $cacheFactory}. * */ function $TemplateCacheProvider() { this.$get = ['$cacheFactory', function($cacheFactory) { return $cacheFactory('templates'); }]; } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Any commits to this file should be reviewed with security in mind. * * Changes to this file can potentially create security vulnerabilities. * * An approval from 2 Core members with history of modifying * * this file is required. * * * * Does the change somehow allow for arbitrary javascript to be executed? * * Or allows for someone to change the prototype of built-in objects? * * Or gives undesired access to variables likes document or window? * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /* ! VARIABLE/FUNCTION NAMING CONVENTIONS THAT APPLY TO THIS FILE! * * DOM-related variables: * * - "node" - DOM Node * - "element" - DOM Element or Node * - "$node" or "$element" - jqLite-wrapped node or element * * * Compiler related stuff: * * - "linkFn" - linking fn of a single directive * - "nodeLinkFn" - function that aggregates all linking fns for a particular node * - "childLinkFn" - function that aggregates all linking fns for child nodes of a particular node * - "compositeLinkFn" - function that aggregates all linking fns for a compilation root (nodeList) */ /** * @ngdoc service * @name $compile * @kind function * * @description * Compiles an HTML string or DOM into a template and produces a template function, which * can then be used to link {@link ng.$rootScope.Scope `scope`} and the template together. * * The compilation is a process of walking the DOM tree and matching DOM elements to * {@link ng.$compileProvider#directive directives}. * *
* **Note:** This document is an in-depth reference of all directive options. * For a gentle introduction to directives with examples of common use cases, * see the {@link guide/directive directive guide}. *
* * ## Comprehensive Directive API * * There are many different options for a directive. * * The difference resides in the return value of the factory function. * You can either return a {@link $compile#directive-definition-object Directive Definition Object (see below)} * that defines the directive properties, or just the `postLink` function (all other properties will have * the default values). * *
* **Best Practice:** It's recommended to use the "directive definition object" form. *
* * Here's an example directive declared with a Directive Definition Object: * * ```js * var myModule = angular.module(...); * * myModule.directive('directiveName', function factory(injectables) { * var directiveDefinitionObject = { * priority: 0, * template: '
', // or // function(tElement, tAttrs) { ... }, * // or * // templateUrl: 'directive.html', // or // function(tElement, tAttrs) { ... }, * transclude: false, * restrict: 'A', * templateNamespace: 'html', * scope: false, * controller: function($scope, $element, $attrs, $transclude, otherInjectables) { ... }, * controllerAs: 'stringIdentifier', * bindToController: false, * require: 'siblingDirectiveName', // or // ['^parentDirectiveName', '?optionalDirectiveName', '?^optionalParent'], * compile: function compile(tElement, tAttrs, transclude) { * return { * pre: function preLink(scope, iElement, iAttrs, controller) { ... }, * post: function postLink(scope, iElement, iAttrs, controller) { ... } * } * // or * // return function postLink( ... ) { ... } * }, * // or * // link: { * // pre: function preLink(scope, iElement, iAttrs, controller) { ... }, * // post: function postLink(scope, iElement, iAttrs, controller) { ... } * // } * // or * // link: function postLink( ... ) { ... } * }; * return directiveDefinitionObject; * }); * ``` * *
* **Note:** Any unspecified options will use the default value. You can see the default values below. *
* * Therefore the above can be simplified as: * * ```js * var myModule = angular.module(...); * * myModule.directive('directiveName', function factory(injectables) { * var directiveDefinitionObject = { * link: function postLink(scope, iElement, iAttrs) { ... } * }; * return directiveDefinitionObject; * // or * // return function postLink(scope, iElement, iAttrs) { ... } * }); * ``` * * ### Life-cycle hooks * Directive controllers can provide the following methods that are called by Angular at points in the life-cycle of the * directive: * * `$onInit()` - Called on each controller after all the controllers on an element have been constructed and * had their bindings initialized (and before the pre & post linking functions for the directives on * this element). This is a good place to put initialization code for your controller. * * `$onChanges(changesObj)` - Called whenever one-way (`<`) or interpolation (`@`) bindings are updated. The * `changesObj` is a hash whose keys are the names of the bound properties that have changed, and the values are an * object of the form `{ currentValue, previousValue, isFirstChange() }`. Use this hook to trigger updates within a * component such as cloning the bound value to prevent accidental mutation of the outer value. * * `$doCheck()` - Called on each turn of the digest cycle. Provides an opportunity to detect and act on * changes. Any actions that you wish to take in response to the changes that you detect must be * invoked from this hook; implementing this has no effect on when `$onChanges` is called. For example, this hook * could be useful if you wish to perform a deep equality check, or to check a Date object, changes to which would not * be detected by Angular's change detector and thus not trigger `$onChanges`. This hook is invoked with no arguments; * if detecting changes, you must store the previous value(s) for comparison to the current values. * * `$onDestroy()` - Called on a controller when its containing scope is destroyed. Use this hook for releasing * external resources, watches and event handlers. Note that components have their `$onDestroy()` hooks called in * the same order as the `$scope.$broadcast` events are triggered, which is top down. This means that parent * components will have their `$onDestroy()` hook called before child components. * * `$postLink()` - Called after this controller's element and its children have been linked. Similar to the post-link * function this hook can be used to set up DOM event handlers and do direct DOM manipulation. * Note that child elements that contain `templateUrl` directives will not have been compiled and linked since * they are waiting for their template to load asynchronously and their own compilation and linking has been * suspended until that occurs. * * #### Comparison with Angular 2 life-cycle hooks * Angular 2 also uses life-cycle hooks for its components. While the Angular 1 life-cycle hooks are similar there are * some differences that you should be aware of, especially when it comes to moving your code from Angular 1 to Angular 2: * * * Angular 1 hooks are prefixed with `$`, such as `$onInit`. Angular 2 hooks are prefixed with `ng`, such as `ngOnInit`. * * Angular 1 hooks can be defined on the controller prototype or added to the controller inside its constructor. * In Angular 2 you can only define hooks on the prototype of the Component class. * * Due to the differences in change-detection, you may get many more calls to `$doCheck` in Angular 1 than you would to * `ngDoCheck` in Angular 2 * * Changes to the model inside `$doCheck` will trigger new turns of the digest loop, which will cause the changes to be * propagated throughout the application. * Angular 2 does not allow the `ngDoCheck` hook to trigger a change outside of the component. It will either throw an * error or do nothing depending upon the state of `enableProdMode()`. * * #### Life-cycle hook examples * * This example shows how you can check for mutations to a Date object even though the identity of the object * has not changed. * * * * angular.module('do-check-module', []) * .component('app', { * template: * 'Month: ' + * 'Date: {{ $ctrl.date }}' + * '', * controller: function() { * this.date = new Date(); * this.month = this.date.getMonth(); * this.updateDate = function() { * this.date.setMonth(this.month); * }; * } * }) * .component('test', { * bindings: { date: '<' }, * template: * '
{{ $ctrl.log | json }}
', * controller: function() { * var previousValue; * this.log = []; * this.$doCheck = function() { * var currentValue = this.date && this.date.valueOf(); * if (previousValue !== currentValue) { * this.log.push('doCheck: date mutated: ' + this.date); * previousValue = currentValue; * } * }; * } * }); * * * * * * * This example show how you might use `$doCheck` to trigger changes in your component's inputs even if the * actual identity of the component doesn't change. (Be aware that cloning and deep equality checks on large * arrays or objects can have a negative impact on your application performance) * * * *
* * * 
{{ items }}
* *
* * * angular.module('do-check-module', []) * .component('test', { * bindings: { items: '<' }, * template: * '
{{ $ctrl.log | json }}
', * controller: function() { * this.log = []; * * this.$doCheck = function() { * if (this.items_ref !== this.items) { * this.log.push('doCheck: items changed'); * this.items_ref = this.items; * } * if (!angular.equals(this.items_clone, this.items)) { * this.log.push('doCheck: items mutated'); * this.items_clone = angular.copy(this.items); * } * }; * } * }); * * * * * ### Directive Definition Object * * The directive definition object provides instructions to the {@link ng.$compile * compiler}. The attributes are: * * #### `multiElement` * When this property is set to true, the HTML compiler will collect DOM nodes between * nodes with the attributes `directive-name-start` and `directive-name-end`, and group them * together as the directive elements. It is recommended that this feature be used on directives * which are not strictly behavioral (such as {@link ngClick}), and which * do not manipulate or replace child nodes (such as {@link ngInclude}). * * #### `priority` * When there are multiple directives defined on a single DOM element, sometimes it * is necessary to specify the order in which the directives are applied. The `priority` is used * to sort the directives before their `compile` functions get called. Priority is defined as a * number. Directives with greater numerical `priority` are compiled first. Pre-link functions * are also run in priority order, but post-link functions are run in reverse order. The order * of directives with the same priority is undefined. The default priority is `0`. * * #### `terminal` * If set to true then the current `priority` will be the last set of directives * which will execute (any directives at the current priority will still execute * as the order of execution on same `priority` is undefined). Note that expressions * and other directives used in the directive's template will also be excluded from execution. * * #### `scope` * The scope property can be `true`, an object or a falsy value: * * * **falsy:** No scope will be created for the directive. The directive will use its parent's scope. * * * **`true`:** A new child scope that prototypically inherits from its parent will be created for * the directive's element. If multiple directives on the same element request a new scope, * only one new scope is created. The new scope rule does not apply for the root of the template * since the root of the template always gets a new scope. * * * **`{...}` (an object hash):** A new "isolate" scope is created for the directive's element. The * 'isolate' scope differs from normal scope in that it does not prototypically inherit from its parent * scope. This is useful when creating reusable components, which should not accidentally read or modify * data in the parent scope. * * The 'isolate' scope object hash defines a set of local scope properties derived from attributes on the * directive's element. These local properties are useful for aliasing values for templates. The keys in * the object hash map to the name of the property on the isolate scope; the values define how the property * is bound to the parent scope, via matching attributes on the directive's element: * * * `@` or `@attr` - bind a local scope property to the value of DOM attribute. The result is * always a string since DOM attributes are strings. If no `attr` name is specified then the * attribute name is assumed to be the same as the local name. Given `` and the isolate scope definition `scope: { localName:'@myAttr' }`, * the directive's scope property `localName` will reflect the interpolated value of `hello * {{name}}`. As the `name` attribute changes so will the `localName` property on the directive's * scope. The `name` is read from the parent scope (not the directive's scope). * * * `=` or `=attr` - set up a bidirectional binding between a local scope property and an expression * passed via the attribute `attr`. The expression is evaluated in the context of the parent scope. * If no `attr` name is specified then the attribute name is assumed to be the same as the local * name. Given `` and the isolate scope definition `scope: { * localModel: '=myAttr' }`, the property `localModel` on the directive's scope will reflect the * value of `parentModel` on the parent scope. Changes to `parentModel` will be reflected in * `localModel` and vice versa. Optional attributes should be marked as such with a question mark: * `=?` or `=?attr`. If the binding expression is non-assignable, or if the attribute isn't * optional and doesn't exist, an exception ({@link error/$compile/nonassign `$compile:nonassign`}) * will be thrown upon discovering changes to the local value, since it will be impossible to sync * them back to the parent scope. By default, the {@link ng.$rootScope.Scope#$watch `$watch`} * method is used for tracking changes, and the equality check is based on object identity. * However, if an object literal or an array literal is passed as the binding expression, the * equality check is done by value (using the {@link angular.equals} function). It's also possible * to watch the evaluated value shallowly with {@link ng.$rootScope.Scope#$watchCollection * `$watchCollection`}: use `=*` or `=*attr` (`=*?` or `=*?attr` if the attribute is optional). * * * `<` or `` and directive definition of * `scope: { localModel:'` and the isolate scope definition `scope: { * localFn:'&myAttr' }`, the isolate scope property `localFn` will point to a function wrapper for * the `count = count + value` expression. Often it's desirable to pass data from the isolated scope * via an expression to the parent scope. This can be done by passing a map of local variable names * and values into the expression wrapper fn. For example, if the expression is `increment(amount)` * then we can specify the amount value by calling the `localFn` as `localFn({amount: 22})`. * * In general it's possible to apply more than one directive to one element, but there might be limitations * depending on the type of scope required by the directives. The following points will help explain these limitations. * For simplicity only two directives are taken into account, but it is also applicable for several directives: * * * **no scope** + **no scope** => Two directives which don't require their own scope will use their parent's scope * * **child scope** + **no scope** => Both directives will share one single child scope * * **child scope** + **child scope** => Both directives will share one single child scope * * **isolated scope** + **no scope** => The isolated directive will use it's own created isolated scope. The other directive will use * its parent's scope * * **isolated scope** + **child scope** => **Won't work!** Only one scope can be related to one element. Therefore these directives cannot * be applied to the same element. * * **isolated scope** + **isolated scope** => **Won't work!** Only one scope can be related to one element. Therefore these directives * cannot be applied to the same element. * * * #### `bindToController` * This property is used to bind scope properties directly to the controller. It can be either * `true` or an object hash with the same format as the `scope` property. Additionally, a controller * alias must be set, either by using `controllerAs: 'myAlias'` or by specifying the alias in the controller * definition: `controller: 'myCtrl as myAlias'`. * * When an isolate scope is used for a directive (see above), `bindToController: true` will * allow a component to have its properties bound to the controller, rather than to scope. * * After the controller is instantiated, the initial values of the isolate scope bindings will be bound to the controller * properties. You can access these bindings once they have been initialized by providing a controller method called * `$onInit`, which is called after all the controllers on an element have been constructed and had their bindings * initialized. * *
* **Deprecation warning:** although bindings for non-ES6 class controllers are currently * bound to `this` before the controller constructor is called, this use is now deprecated. Please place initialization * code that relies upon bindings inside a `$onInit` method on the controller, instead. *
* * It is also possible to set `bindToController` to an object hash with the same format as the `scope` property. * This will set up the scope bindings to the controller directly. Note that `scope` can still be used * to define which kind of scope is created. By default, no scope is created. Use `scope: {}` to create an isolate * scope (useful for component directives). * * If both `bindToController` and `scope` are defined and have object hashes, `bindToController` overrides `scope`. * * * #### `controller` * Controller constructor function. The controller is instantiated before the * pre-linking phase and can be accessed by other directives (see * `require` attribute). This allows the directives to communicate with each other and augment * each other's behavior. The controller is injectable (and supports bracket notation) with the following locals: * * * `$scope` - Current scope associated with the element * * `$element` - Current element * * `$attrs` - Current attributes object for the element * * `$transclude` - A transclude linking function pre-bound to the correct transclusion scope: * `function([scope], cloneLinkingFn, futureParentElement, slotName)`: * * `scope`: (optional) override the scope. * * `cloneLinkingFn`: (optional) argument to create clones of the original transcluded content. * * `futureParentElement` (optional): * * defines the parent to which the `cloneLinkingFn` will add the cloned elements. * * default: `$element.parent()` resp. `$element` for `transclude:'element'` resp. `transclude:true`. * * only needed for transcludes that are allowed to contain non html elements (e.g. SVG elements) * and when the `cloneLinkinFn` is passed, * as those elements need to created and cloned in a special way when they are defined outside their * usual containers (e.g. like ``). * * See also the `directive.templateNamespace` property. * * `slotName`: (optional) the name of the slot to transclude. If falsy (e.g. `null`, `undefined` or `''`) * then the default translusion is provided. * The `$transclude` function also has a method on it, `$transclude.isSlotFilled(slotName)`, which returns * `true` if the specified slot contains content (i.e. one or more DOM nodes). * * #### `require` * Require another directive and inject its controller as the fourth argument to the linking function. The * `require` property can be a string, an array or an object: * * a **string** containing the name of the directive to pass to the linking function * * an **array** containing the names of directives to pass to the linking function. The argument passed to the * linking function will be an array of controllers in the same order as the names in the `require` property * * an **object** whose property values are the names of the directives to pass to the linking function. The argument * passed to the linking function will also be an object with matching keys, whose values will hold the corresponding * controllers. * * If the `require` property is an object and `bindToController` is truthy, then the required controllers are * bound to the controller using the keys of the `require` property. This binding occurs after all the controllers * have been constructed but before `$onInit` is called. * If the name of the required controller is the same as the local name (the key), the name can be * omitted. For example, `{parentDir: '^^'}` is equivalent to `{parentDir: '^^parentDir'}`. * See the {@link $compileProvider#component} helper for an example of how this can be used. * If no such required directive(s) can be found, or if the directive does not have a controller, then an error is * raised (unless no link function is specified and the required controllers are not being bound to the directive * controller, in which case error checking is skipped). The name can be prefixed with: * * * (no prefix) - Locate the required controller on the current element. Throw an error if not found. * * `?` - Attempt to locate the required controller or pass `null` to the `link` fn if not found. * * `^` - Locate the required controller by searching the element and its parents. Throw an error if not found. * * `^^` - Locate the required controller by searching the element's parents. Throw an error if not found. * * `?^` - Attempt to locate the required controller by searching the element and its parents or pass * `null` to the `link` fn if not found. * * `?^^` - Attempt to locate the required controller by searching the element's parents, or pass * `null` to the `link` fn if not found. * * * #### `controllerAs` * Identifier name for a reference to the controller in the directive's scope. * This allows the controller to be referenced from the directive template. This is especially * useful when a directive is used as component, i.e. with an `isolate` scope. It's also possible * to use it in a directive without an `isolate` / `new` scope, but you need to be aware that the * `controllerAs` reference might overwrite a property that already exists on the parent scope. * * * #### `restrict` * String of subset of `EACM` which restricts the directive to a specific directive * declaration style. If omitted, the defaults (elements and attributes) are used. * * * `E` - Element name (default): `` * * `A` - Attribute (default): `
` * * `C` - Class: `
` * * `M` - Comment: `` * * * #### `templateNamespace` * String representing the document type used by the markup in the template. * AngularJS needs this information as those elements need to be created and cloned * in a special way when they are defined outside their usual containers like `` and ``. * * * `html` - All root nodes in the template are HTML. Root nodes may also be * top-level elements such as `` or ``. * * `svg` - The root nodes in the template are SVG elements (excluding ``). * * `math` - The root nodes in the template are MathML elements (excluding ``). * * If no `templateNamespace` is specified, then the namespace is considered to be `html`. * * #### `template` * HTML markup that may: * * Replace the contents of the directive's element (default). * * Replace the directive's element itself (if `replace` is true - DEPRECATED). * * Wrap the contents of the directive's element (if `transclude` is true). * * Value may be: * * * A string. For example `
{{delete_str}}
`. * * A function which takes two arguments `tElement` and `tAttrs` (described in the `compile` * function api below) and returns a string value. * * * #### `templateUrl` * This is similar to `template` but the template is loaded from the specified URL, asynchronously. * * Because template loading is asynchronous the compiler will suspend compilation of directives on that element * for later when the template has been resolved. In the meantime it will continue to compile and link * sibling and parent elements as though this element had not contained any directives. * * The compiler does not suspend the entire compilation to wait for templates to be loaded because this * would result in the whole app "stalling" until all templates are loaded asynchronously - even in the * case when only one deeply nested directive has `templateUrl`. * * Template loading is asynchronous even if the template has been preloaded into the {@link $templateCache} * * You can specify `templateUrl` as a string representing the URL or as a function which takes two * arguments `tElement` and `tAttrs` (described in the `compile` function api below) and returns * a string value representing the url. In either case, the template URL is passed through {@link * $sce#getTrustedResourceUrl $sce.getTrustedResourceUrl}. * * * #### `replace` ([*DEPRECATED*!], will be removed in next major release - i.e. v2.0) * specify what the template should replace. Defaults to `false`. * * * `true` - the template will replace the directive's element. * * `false` - the template will replace the contents of the directive's element. * * The replacement process migrates all of the attributes / classes from the old element to the new * one. See the {@link guide/directive#template-expanding-directive * Directives Guide} for an example. * * There are very few scenarios where element replacement is required for the application function, * the main one being reusable custom components that are used within SVG contexts * (because SVG doesn't work with custom elements in the DOM tree). * * #### `transclude` * Extract the contents of the element where the directive appears and make it available to the directive. * The contents are compiled and provided to the directive as a **transclusion function**. See the * {@link $compile#transclusion Transclusion} section below. * * * #### `compile` * * ```js * function compile(tElement, tAttrs, transclude) { ... } * ``` * * The compile function deals with transforming the template DOM. Since most directives do not do * template transformation, it is not used often. The compile function takes the following arguments: * * * `tElement` - template element - The element where the directive has been declared. It is * safe to do template transformation on the element and child elements only. * * * `tAttrs` - template attributes - Normalized list of attributes declared on this element shared * between all directive compile functions. * * * `transclude` - [*DEPRECATED*!] A transclude linking function: `function(scope, cloneLinkingFn)` * *
* **Note:** The template instance and the link instance may be different objects if the template has * been cloned. For this reason it is **not** safe to do anything other than DOM transformations that * apply to all cloned DOM nodes within the compile function. Specifically, DOM listener registration * should be done in a linking function rather than in a compile function. *
*
* **Note:** The compile function cannot handle directives that recursively use themselves in their * own templates or compile functions. Compiling these directives results in an infinite loop and * stack overflow errors. * * This can be avoided by manually using $compile in the postLink function to imperatively compile * a directive's template instead of relying on automatic template compilation via `template` or * `templateUrl` declaration or manual compilation inside the compile function. *
* *
* **Note:** The `transclude` function that is passed to the compile function is deprecated, as it * e.g. does not know about the right outer scope. Please use the transclude function that is passed * to the link function instead. *
* A compile function can have a return value which can be either a function or an object. * * * returning a (post-link) function - is equivalent to registering the linking function via the * `link` property of the config object when the compile function is empty. * * * returning an object with function(s) registered via `pre` and `post` properties - allows you to * control when a linking function should be called during the linking phase. See info about * pre-linking and post-linking functions below. * * * #### `link` * This property is used only if the `compile` property is not defined. * * ```js * function link(scope, iElement, iAttrs, controller, transcludeFn) { ... } * ``` * * The link function is responsible for registering DOM listeners as well as updating the DOM. It is * executed after the template has been cloned. This is where most of the directive logic will be * put. * * * `scope` - {@link ng.$rootScope.Scope Scope} - The scope to be used by the * directive for registering {@link ng.$rootScope.Scope#$watch watches}. * * * `iElement` - instance element - The element where the directive is to be used. It is safe to * manipulate the children of the element only in `postLink` function since the children have * already been linked. * * * `iAttrs` - instance attributes - Normalized list of attributes declared on this element shared * between all directive linking functions. * * * `controller` - the directive's required controller instance(s) - Instances are shared * among all directives, which allows the directives to use the controllers as a communication * channel. The exact value depends on the directive's `require` property: * * no controller(s) required: the directive's own controller, or `undefined` if it doesn't have one * * `string`: the controller instance * * `array`: array of controller instances * * If a required controller cannot be found, and it is optional, the instance is `null`, * otherwise the {@link error:$compile:ctreq Missing Required Controller} error is thrown. * * Note that you can also require the directive's own controller - it will be made available like * any other controller. * * * `transcludeFn` - A transclude linking function pre-bound to the correct transclusion scope. * This is the same as the `$transclude` parameter of directive controllers, * see {@link ng.$compile#-controller- the controller section for details}. * `function([scope], cloneLinkingFn, futureParentElement)`. * * #### Pre-linking function * * Executed before the child elements are linked. Not safe to do DOM transformation since the * compiler linking function will fail to locate the correct elements for linking. * * #### Post-linking function * * Executed after the child elements are linked. * * Note that child elements that contain `templateUrl` directives will not have been compiled * and linked since they are waiting for their template to load asynchronously and their own * compilation and linking has been suspended until that occurs. * * It is safe to do DOM transformation in the post-linking function on elements that are not waiting * for their async templates to be resolved. * * * ### Transclusion * * Transclusion is the process of extracting a collection of DOM elements from one part of the DOM and * copying them to another part of the DOM, while maintaining their connection to the original AngularJS * scope from where they were taken. * * Transclusion is used (often with {@link ngTransclude}) to insert the * original contents of a directive's element into a specified place in the template of the directive. * The benefit of transclusion, over simply moving the DOM elements manually, is that the transcluded * content has access to the properties on the scope from which it was taken, even if the directive * has isolated scope. * See the {@link guide/directive#creating-a-directive-that-wraps-other-elements Directives Guide}. * * This makes it possible for the widget to have private state for its template, while the transcluded * content has access to its originating scope. * *
* **Note:** When testing an element transclude directive you must not place the directive at the root of the * DOM fragment that is being compiled. See {@link guide/unit-testing#testing-transclusion-directives * Testing Transclusion Directives}. *
* * There are three kinds of transclusion depending upon whether you want to transclude just the contents of the * directive's element, the entire element or multiple parts of the element contents: * * * `true` - transclude the content (i.e. the child nodes) of the directive's element. * * `'element'` - transclude the whole of the directive's element including any directives on this * element that defined at a lower priority than this directive. When used, the `template` * property is ignored. * * **`{...}` (an object hash):** - map elements of the content onto transclusion "slots" in the template. * * **Mult-slot transclusion** is declared by providing an object for the `transclude` property. * * This object is a map where the keys are the name of the slot to fill and the value is an element selector * used to match the HTML to the slot. The element selector should be in normalized form (e.g. `myElement`) * and will match the standard element variants (e.g. `my-element`, `my:element`, `data-my-element`, etc). * * For further information check out the guide on {@link guide/directive#matching-directives Matching Directives} * * If the element selector is prefixed with a `?` then that slot is optional. * * For example, the transclude object `{ slotA: '?myCustomElement' }` maps `` elements to * the `slotA` slot, which can be accessed via the `$transclude` function or via the {@link ngTransclude} directive. * * Slots that are not marked as optional (`?`) will trigger a compile time error if there are no matching elements * in the transclude content. If you wish to know if an optional slot was filled with content, then you can call * `$transclude.isSlotFilled(slotName)` on the transclude function passed to the directive's link function and * injectable into the directive's controller. * * * #### Transclusion Functions * * When a directive requests transclusion, the compiler extracts its contents and provides a **transclusion * function** to the directive's `link` function and `controller`. This transclusion function is a special * **linking function** that will return the compiled contents linked to a new transclusion scope. * *
* If you are just using {@link ngTransclude} then you don't need to worry about this function, since * ngTransclude will deal with it for us. *
* * If you want to manually control the insertion and removal of the transcluded content in your directive * then you must use this transclude function. When you call a transclude function it returns a a jqLite/JQuery * object that contains the compiled DOM, which is linked to the correct transclusion scope. * * When you call a transclusion function you can pass in a **clone attach function**. This function accepts * two parameters, `function(clone, scope) { ... }`, where the `clone` is a fresh compiled copy of your transcluded * content and the `scope` is the newly created transclusion scope, to which the clone is bound. * *
* **Best Practice**: Always provide a `cloneFn` (clone attach function) when you call a transclude function * since you then get a fresh clone of the original DOM and also have access to the new transclusion scope. *
* * It is normal practice to attach your transcluded content (`clone`) to the DOM inside your **clone * attach function**: * * ```js * var transcludedContent, transclusionScope; * * $transclude(function(clone, scope) { * element.append(clone); * transcludedContent = clone; * transclusionScope = scope; * }); * ``` * * Later, if you want to remove the transcluded content from your DOM then you should also destroy the * associated transclusion scope: * * ```js * transcludedContent.remove(); * transclusionScope.$destroy(); * ``` * *
* **Best Practice**: if you intend to add and remove transcluded content manually in your directive * (by calling the transclude function to get the DOM and calling `element.remove()` to remove it), * then you are also responsible for calling `$destroy` on the transclusion scope. *
* * The built-in DOM manipulation directives, such as {@link ngIf}, {@link ngSwitch} and {@link ngRepeat} * automatically destroy their transcluded clones as necessary so you do not need to worry about this if * you are simply using {@link ngTransclude} to inject the transclusion into your directive. * * * #### Transclusion Scopes * * When you call a transclude function it returns a DOM fragment that is pre-bound to a **transclusion * scope**. This scope is special, in that it is a child of the directive's scope (and so gets destroyed * when the directive's scope gets destroyed) but it inherits the properties of the scope from which it * was taken. * * For example consider a directive that uses transclusion and isolated scope. The DOM hierarchy might look * like this: * * ```html *
*
*
*
*
*
* ``` * * The `$parent` scope hierarchy will look like this: * ``` - $rootScope - isolate - transclusion ``` * * but the scopes will inherit prototypically from different scopes to their `$parent`. * ``` - $rootScope - transclusion - isolate ``` * * * ### Attributes * * The {@link ng.$compile.directive.Attributes Attributes} object - passed as a parameter in the * `link()` or `compile()` functions. It has a variety of uses. * * * *Accessing normalized attribute names:* Directives like 'ngBind' can be expressed in many ways: * 'ng:bind', `data-ng-bind`, or 'x-ng-bind'. The attributes object allows for normalized access * to the attributes. * * * *Directive inter-communication:* All directives share the same instance of the attributes * object which allows the directives to use the attributes object as inter directive * communication. * * * *Supports interpolation:* Interpolation attributes are assigned to the attribute object * allowing other directives to read the interpolated value. * * * *Observing interpolated attributes:* Use `$observe` to observe the value changes of attributes * that contain interpolation (e.g. `src="{{bar}}"`). Not only is this very efficient but it's also * the only way to easily get the actual value because during the linking phase the interpolation * hasn't been evaluated yet and so the value is at this time set to `undefined`. * * ```js * function linkingFn(scope, elm, attrs, ctrl) { * // get the attribute value * console.log(attrs.ngModel); * * // change the attribute * attrs.$set('ngModel', 'new value'); * * // observe changes to interpolated attribute * attrs.$observe('ngModel', function(value) { * console.log('ngModel has changed value to ' + value); * }); * } * ``` * * ## Example * *
* **Note**: Typically directives are registered with `module.directive`. The example below is * to illustrate how `$compile` works. *
*


it('should auto compile', function() { var textarea = $('textarea'); var output = $('div[compile]'); // The initial state reads 'Hello Angular'. expect(output.getText()).toBe('Hello Angular'); textarea.clear(); textarea.sendKeys('{{name}}!'); expect(output.getText()).toBe('Angular!'); }); * * * @param {string|DOMElement} element Element or HTML string to compile into a template function. * @param {function(angular.Scope, cloneAttachFn=)} transclude function available to directives - DEPRECATED. * *
* **Note:** Passing a `transclude` function to the $compile function is deprecated, as it * e.g. will not use the right outer scope. Please pass the transclude function as a * `parentBoundTranscludeFn` to the link function instead. *
* * @param {number} maxPriority only apply directives lower than given priority (Only effects the * root element(s), not their children) * @returns {function(scope, cloneAttachFn=, options=)} a link function which is used to bind template * (a DOM element/tree) to a scope. Where: * * * `scope` - A {@link ng.$rootScope.Scope Scope} to bind to. * * `cloneAttachFn` - If `cloneAttachFn` is provided, then the link function will clone the * `template` and call the `cloneAttachFn` function allowing the caller to attach the * cloned elements to the DOM document at the appropriate place. The `cloneAttachFn` is * called as:
`cloneAttachFn(clonedElement, scope)` where: * * * `clonedElement` - is a clone of the original `element` passed into the compiler. * * `scope` - is the current scope with which the linking function is working with. * * * `options` - An optional object hash with linking options. If `options` is provided, then the following * keys may be used to control linking behavior: * * * `parentBoundTranscludeFn` - the transclude function made available to * directives; if given, it will be passed through to the link functions of * directives found in `element` during compilation. * * `transcludeControllers` - an object hash with keys that map controller names * to a hash with the key `instance`, which maps to the controller instance; * if given, it will make the controllers available to directives on the compileNode: * ``` * { * parent: { * instance: parentControllerInstance * } * } * ``` * * `futureParentElement` - defines the parent to which the `cloneAttachFn` will add * the cloned elements; only needed for transcludes that are allowed to contain non html * elements (e.g. SVG elements). See also the directive.controller property. * * Calling the linking function returns the element of the template. It is either the original * element passed in, or the clone of the element if the `cloneAttachFn` is provided. * * After linking the view is not updated until after a call to $digest which typically is done by * Angular automatically. * * If you need access to the bound view, there are two ways to do it: * * - If you are not asking the linking function to clone the template, create the DOM element(s) * before you send them to the compiler and keep this reference around. * ```js * var element = $compile('

{{total}}

')(scope); * ``` * * - if on the other hand, you need the element to be cloned, the view reference from the original * example would not point to the clone, but rather to the original template that was cloned. In * this case, you can access the clone via the cloneAttachFn: * ```js * var templateElement = angular.element('

{{total}}

'), * scope = ....; * * var clonedElement = $compile(templateElement)(scope, function(clonedElement, scope) { * //attach the clone to DOM document at the right place * }); * * //now we have reference to the cloned DOM via `clonedElement` * ``` * * * For information on how the compiler works, see the * {@link guide/compiler Angular HTML Compiler} section of the Developer Guide. */ var $compileMinErr = minErr('$compile'); function UNINITIALIZED_VALUE() {} var _UNINITIALIZED_VALUE = new UNINITIALIZED_VALUE(); /** * @ngdoc provider * @name $compileProvider * * @description */ $CompileProvider.$inject = ['$provide', '$$sanitizeUriProvider']; function $CompileProvider($provide, $$sanitizeUriProvider) { var hasDirectives = {}, Suffix = 'Directive', COMMENT_DIRECTIVE_REGEXP = /^\s*directive\:\s*([\w\-]+)\s+(.*)$/, CLASS_DIRECTIVE_REGEXP = /(([\w\-]+)(?:\:([^;]+))?;?)/, ALL_OR_NOTHING_ATTRS = makeMap('ngSrc,ngSrcset,src,srcset'), REQUIRE_PREFIX_REGEXP = /^(?:(\^\^?)?(\?)?(\^\^?)?)?/; // Ref: http://developers.whatwg.org/webappapis.html#event-handler-idl-attributes // The assumption is that future DOM event attribute names will begin with // 'on' and be composed of only English letters. var EVENT_HANDLER_ATTR_REGEXP = /^(on[a-z]+|formaction)$/; var bindingCache = createMap(); function parseIsolateBindings(scope, directiveName, isController) { var LOCAL_REGEXP = /^\s*([@&<]|=(\*?))(\??)\s*(\w*)\s*$/; var bindings = createMap(); forEach(scope, function(definition, scopeName) { if (definition in bindingCache) { bindings[scopeName] = bindingCache[definition]; return; } var match = definition.match(LOCAL_REGEXP); if (!match) { throw $compileMinErr('iscp', "Invalid {3} for directive '{0}'." + " Definition: {... {1}: '{2}' ...}", directiveName, scopeName, definition, (isController ? "controller bindings definition" : "isolate scope definition")); } bindings[scopeName] = { mode: match[1][0], collection: match[2] === '*', optional: match[3] === '?', attrName: match[4] || scopeName }; if (match[4]) { bindingCache[definition] = bindings[scopeName]; } }); return bindings; } function parseDirectiveBindings(directive, directiveName) { var bindings = { isolateScope: null, bindToController: null }; if (isObject(directive.scope)) { if (directive.bindToController === true) { bindings.bindToController = parseIsolateBindings(directive.scope, directiveName, true); bindings.isolateScope = {}; } else { bindings.isolateScope = parseIsolateBindings(directive.scope, directiveName, false); } } if (isObject(directive.bindToController)) { bindings.bindToController = parseIsolateBindings(directive.bindToController, directiveName, true); } if (isObject(bindings.bindToController)) { var controller = directive.controller; var controllerAs = directive.controllerAs; if (!controller) { // There is no controller, there may or may not be a controllerAs property throw $compileMinErr('noctrl', "Cannot bind to controller without directive '{0}'s controller.", directiveName); } else if (!identifierForController(controller, controllerAs)) { // There is a controller, but no identifier or controllerAs property throw $compileMinErr('noident', "Cannot bind to controller without identifier for directive '{0}'.", directiveName); } } return bindings; } function assertValidDirectiveName(name) { var letter = name.charAt(0); if (!letter || letter !== lowercase(letter)) { throw $compileMinErr('baddir', "Directive/Component name '{0}' is invalid. The first character must be a lowercase letter", name); } if (name !== name.trim()) { throw $compileMinErr('baddir', "Directive/Component name '{0}' is invalid. The name should not contain leading or trailing whitespaces", name); } } function getDirectiveRequire(directive) { var require = directive.require || (directive.controller && directive.name); if (!isArray(require) && isObject(require)) { forEach(require, function(value, key) { var match = value.match(REQUIRE_PREFIX_REGEXP); var name = value.substring(match[0].length); if (!name) require[key] = match[0] + key; }); } return require; } /** * @ngdoc method * @name $compileProvider#directive * @kind function * * @description * Register a new directive with the compiler. * * @param {string|Object} name Name of the directive in camel-case (i.e. ngBind which * will match as ng-bind), or an object map of directives where the keys are the * names and the values are the factories. * @param {Function|Array} directiveFactory An injectable directive factory function. See the * {@link guide/directive directive guide} and the {@link $compile compile API} for more info. * @returns {ng.$compileProvider} Self for chaining. */ this.directive = function registerDirective(name, directiveFactory) { assertNotHasOwnProperty(name, 'directive'); if (isString(name)) { assertValidDirectiveName(name); assertArg(directiveFactory, 'directiveFactory'); if (!hasDirectives.hasOwnProperty(name)) { hasDirectives[name] = []; $provide.factory(name + Suffix, ['$injector', '$exceptionHandler', function($injector, $exceptionHandler) { var directives = []; forEach(hasDirectives[name], function(directiveFactory, index) { try { var directive = $injector.invoke(directiveFactory); if (isFunction(directive)) { directive = { compile: valueFn(directive) }; } else if (!directive.compile && directive.link) { directive.compile = valueFn(directive.link); } directive.priority = directive.priority || 0; directive.index = index; directive.name = directive.name || name; directive.require = getDirectiveRequire(directive); directive.restrict = directive.restrict || 'EA'; directive.$$moduleName = directiveFactory.$$moduleName; directives.push(directive); } catch (e) { $exceptionHandler(e); } }); return directives; }]); } hasDirectives[name].push(directiveFactory); } else { forEach(name, reverseParams(registerDirective)); } return this; }; /** * @ngdoc method * @name $compileProvider#component * @module ng * @param {string} name Name of the component in camelCase (i.e. `myComp` which will match ``) * @param {Object} options Component definition object (a simplified * {@link ng.$compile#directive-definition-object directive definition object}), * with the following properties (all optional): * * - `controller` – `{(string|function()=}` – controller constructor function that should be * associated with newly created scope or the name of a {@link ng.$compile#-controller- * registered controller} if passed as a string. An empty `noop` function by default. * - `controllerAs` – `{string=}` – identifier name for to reference the controller in the component's scope. * If present, the controller will be published to scope under the `controllerAs` name. * If not present, this will default to be `$ctrl`. * - `template` – `{string=|function()=}` – html template as a string or a function that * returns an html template as a string which should be used as the contents of this component. * Empty string by default. * * If `template` is a function, then it is {@link auto.$injector#invoke injected} with * the following locals: * * - `$element` - Current element * - `$attrs` - Current attributes object for the element * * - `templateUrl` – `{string=|function()=}` – path or function that returns a path to an html * template that should be used as the contents of this component. * * If `templateUrl` is a function, then it is {@link auto.$injector#invoke injected} with * the following locals: * * - `$element` - Current element * - `$attrs` - Current attributes object for the element * * - `bindings` – `{object=}` – defines bindings between DOM attributes and component properties. * Component properties are always bound to the component controller and not to the scope. * See {@link ng.$compile#-bindtocontroller- `bindToController`}. * - `transclude` – `{boolean=}` – whether {@link $compile#transclusion content transclusion} is enabled. * Disabled by default. * - `require` - `{Object=}` - requires the controllers of other directives and binds them to * this component's controller. The object keys specify the property names under which the required * controllers (object values) will be bound. See {@link ng.$compile#-require- `require`}. * - `$...` – additional properties to attach to the directive factory function and the controller * constructor function. (This is used by the component router to annotate) * * @returns {ng.$compileProvider} the compile provider itself, for chaining of function calls. * @description * Register a **component definition** with the compiler. This is a shorthand for registering a special * type of directive, which represents a self-contained UI component in your application. Such components * are always isolated (i.e. `scope: {}`) and are always restricted to elements (i.e. `restrict: 'E'`). * * Component definitions are very simple and do not require as much configuration as defining general * directives. Component definitions usually consist only of a template and a controller backing it. * * In order to make the definition easier, components enforce best practices like use of `controllerAs`, * `bindToController`. They always have **isolate scope** and are restricted to elements. * * Here are a few examples of how you would usually define components: * * ```js * var myMod = angular.module(...); * myMod.component('myComp', { * template: '
My name is {{$ctrl.name}}
', * controller: function() { * this.name = 'shahar'; * } * }); * * myMod.component('myComp', { * template: '
My name is {{$ctrl.name}}
', * bindings: {name: '@'} * }); * * myMod.component('myComp', { * templateUrl: 'views/my-comp.html', * controller: 'MyCtrl', * controllerAs: 'ctrl', * bindings: {name: '@'} * }); * * ``` * For more examples, and an in-depth guide, see the {@link guide/component component guide}. * *
* See also {@link ng.$compileProvider#directive $compileProvider.directive()}. */ this.component = function registerComponent(name, options) { var controller = options.controller || function() {}; function factory($injector) { function makeInjectable(fn) { if (isFunction(fn) || isArray(fn)) { return function(tElement, tAttrs) { return $injector.invoke(fn, this, {$element: tElement, $attrs: tAttrs}); }; } else { return fn; } } var template = (!options.template && !options.templateUrl ? '' : options.template); var ddo = { controller: controller, controllerAs: identifierForController(options.controller) || options.controllerAs || '$ctrl', template: makeInjectable(template), templateUrl: makeInjectable(options.templateUrl), transclude: options.transclude, scope: {}, bindToController: options.bindings || {}, restrict: 'E', require: options.require }; // Copy annotations (starting with $) over to the DDO forEach(options, function(val, key) { if (key.charAt(0) === '$') ddo[key] = val; }); return ddo; } // TODO(pete) remove the following `forEach` before we release 1.6.0 // The component-router@0.2.0 looks for the annotations on the controller constructor // Nothing in Angular looks for annotations on the factory function but we can't remove // it from 1.5.x yet. // Copy any annotation properties (starting with $) over to the factory and controller constructor functions // These could be used by libraries such as the new component router forEach(options, function(val, key) { if (key.charAt(0) === '$') { factory[key] = val; // Don't try to copy over annotations to named controller if (isFunction(controller)) controller[key] = val; } }); factory.$inject = ['$injector']; return this.directive(name, factory); }; /** * @ngdoc method * @name $compileProvider#aHrefSanitizationWhitelist * @kind function * * @description * Retrieves or overrides the default regular expression that is used for whitelisting of safe * urls during a[href] sanitization. * * The sanitization is a security measure aimed at preventing XSS attacks via html links. * * Any url about to be assigned to a[href] via data-binding is first normalized and turned into * an absolute url. Afterwards, the url is matched against the `aHrefSanitizationWhitelist` * regular expression. If a match is found, the original url is written into the dom. Otherwise, * the absolute url is prefixed with `'unsafe:'` string and only then is it written into the DOM. * * @param {RegExp=} regexp New regexp to whitelist urls with. * @returns {RegExp|ng.$compileProvider} Current RegExp if called without value or self for * chaining otherwise. */ this.aHrefSanitizationWhitelist = function(regexp) { if (isDefined(regexp)) { $$sanitizeUriProvider.aHrefSanitizationWhitelist(regexp); return this; } else { return $$sanitizeUriProvider.aHrefSanitizationWhitelist(); } }; /** * @ngdoc method * @name $compileProvider#imgSrcSanitizationWhitelist * @kind function * * @description * Retrieves or overrides the default regular expression that is used for whitelisting of safe * urls during img[src] sanitization. * * The sanitization is a security measure aimed at prevent XSS attacks via html links. * * Any url about to be assigned to img[src] via data-binding is first normalized and turned into * an absolute url. Afterwards, the url is matched against the `imgSrcSanitizationWhitelist` * regular expression. If a match is found, the original url is written into the dom. Otherwise, * the absolute url is prefixed with `'unsafe:'` string and only then is it written into the DOM. * * @param {RegExp=} regexp New regexp to whitelist urls with. * @returns {RegExp|ng.$compileProvider} Current RegExp if called without value or self for * chaining otherwise. */ this.imgSrcSanitizationWhitelist = function(regexp) { if (isDefined(regexp)) { $$sanitizeUriProvider.imgSrcSanitizationWhitelist(regexp); return this; } else { return $$sanitizeUriProvider.imgSrcSanitizationWhitelist(); } }; /** * @ngdoc method * @name $compileProvider#debugInfoEnabled * * @param {boolean=} enabled update the debugInfoEnabled state if provided, otherwise just return the * current debugInfoEnabled state * @returns {*} current value if used as getter or itself (chaining) if used as setter * * @kind function * * @description * Call this method to enable/disable various debug runtime information in the compiler such as adding * binding information and a reference to the current scope on to DOM elements. * If enabled, the compiler will add the following to DOM elements that have been bound to the scope * * `ng-binding` CSS class * * `$binding` data property containing an array of the binding expressions * * You may want to disable this in production for a significant performance boost. See * {@link guide/production#disabling-debug-data Disabling Debug Data} for more. * * The default value is true. */ var debugInfoEnabled = true; this.debugInfoEnabled = function(enabled) { if (isDefined(enabled)) { debugInfoEnabled = enabled; return this; } return debugInfoEnabled; }; var TTL = 10; /** * @ngdoc method * @name $compileProvider#onChangesTtl * @description * * Sets the number of times `$onChanges` hooks can trigger new changes before giving up and * assuming that the model is unstable. * * The current default is 10 iterations. * * In complex applications it's possible that dependencies between `$onChanges` hooks and bindings will result * in several iterations of calls to these hooks. However if an application needs more than the default 10 * iterations to stabilize then you should investigate what is causing the model to continuously change during * the `$onChanges` hook execution. * * Increasing the TTL could have performance implications, so you should not change it without proper justification. * * @param {number} limit The number of `$onChanges` hook iterations. * @returns {number|object} the current limit (or `this` if called as a setter for chaining) */ this.onChangesTtl = function(value) { if (arguments.length) { TTL = value; return this; } return TTL; }; this.$get = [ '$injector', '$interpolate', '$exceptionHandler', '$templateRequest', '$parse', '$controller', '$rootScope', '$sce', '$animate', '$$sanitizeUri', function($injector, $interpolate, $exceptionHandler, $templateRequest, $parse, $controller, $rootScope, $sce, $animate, $$sanitizeUri) { var SIMPLE_ATTR_NAME = /^\w/; var specialAttrHolder = window.document.createElement('div'); var onChangesTtl = TTL; // The onChanges hooks should all be run together in a single digest // When changes occur, the call to trigger their hooks will be added to this queue var onChangesQueue; // This function is called in a $$postDigest to trigger all the onChanges hooks in a single digest function flushOnChangesQueue() { try { if (!(--onChangesTtl)) { // We have hit the TTL limit so reset everything onChangesQueue = undefined; throw $compileMinErr('infchng', '{0} $onChanges() iterations reached. Aborting!\n', TTL); } // We must run this hook in an apply since the $$postDigest runs outside apply $rootScope.$apply(function() { var errors = []; for (var i = 0, ii = onChangesQueue.length; i < ii; ++i) { try { onChangesQueue[i](); } catch (e) { errors.push(e); } } // Reset the queue to trigger a new schedule next time there is a change onChangesQueue = undefined; if (errors.length) { throw errors; } }); } finally { onChangesTtl++; } } function Attributes(element, attributesToCopy) { if (attributesToCopy) { var keys = Object.keys(attributesToCopy); var i, l, key; for (i = 0, l = keys.length; i < l; i++) { key = keys[i]; this[key] = attributesToCopy[key]; } } else { this.$attr = {}; } this.$$element = element; } Attributes.prototype = { /** * @ngdoc method * @name $compile.directive.Attributes#$normalize * @kind function * * @description * Converts an attribute name (e.g. dash/colon/underscore-delimited string, optionally prefixed with `x-` or * `data-`) to its normalized, camelCase form. * * Also there is special case for Moz prefix starting with upper case letter. * * For further information check out the guide on {@link guide/directive#matching-directives Matching Directives} * * @param {string} name Name to normalize */ $normalize: directiveNormalize, /** * @ngdoc method * @name $compile.directive.Attributes#$addClass * @kind function * * @description * Adds the CSS class value specified by the classVal parameter to the element. If animations * are enabled then an animation will be triggered for the class addition. * * @param {string} classVal The className value that will be added to the element */ $addClass: function(classVal) { if (classVal && classVal.length > 0) { $animate.addClass(this.$$element, classVal); } }, /** * @ngdoc method * @name $compile.directive.Attributes#$removeClass * @kind function * * @description * Removes the CSS class value specified by the classVal parameter from the element. If * animations are enabled then an animation will be triggered for the class removal. * * @param {string} classVal The className value that will be removed from the element */ $removeClass: function(classVal) { if (classVal && classVal.length > 0) { $animate.removeClass(this.$$element, classVal); } }, /** * @ngdoc method * @name $compile.directive.Attributes#$updateClass * @kind function * * @description * Adds and removes the appropriate CSS class values to the element based on the difference * between the new and old CSS class values (specified as newClasses and oldClasses). * * @param {string} newClasses The current CSS className value * @param {string} oldClasses The former CSS className value */ $updateClass: function(newClasses, oldClasses) { var toAdd = tokenDifference(newClasses, oldClasses); if (toAdd && toAdd.length) { $animate.addClass(this.$$element, toAdd); } var toRemove = tokenDifference(oldClasses, newClasses); if (toRemove && toRemove.length) { $animate.removeClass(this.$$element, toRemove); } }, /** * Set a normalized attribute on the element in a way such that all directives * can share the attribute. This function properly handles boolean attributes. * @param {string} key Normalized key. (ie ngAttribute) * @param {string|boolean} value The value to set. If `null` attribute will be deleted. * @param {boolean=} writeAttr If false, does not write the value to DOM element attribute. * Defaults to true. * @param {string=} attrName Optional none normalized name. Defaults to key. */ $set: function(key, value, writeAttr, attrName) { // TODO: decide whether or not to throw an error if "class" //is set through this function since it may cause $updateClass to //become unstable. var node = this.$$element[0], booleanKey = getBooleanAttrName(node, key), aliasedKey = getAliasedAttrName(key), observer = key, nodeName; if (booleanKey) { this.$$element.prop(key, value); attrName = booleanKey; } else if (aliasedKey) { this[aliasedKey] = value; observer = aliasedKey; } this[key] = value; // translate normalized key to actual key if (attrName) { this.$attr[key] = attrName; } else { attrName = this.$attr[key]; if (!attrName) { this.$attr[key] = attrName = snake_case(key, '-'); } } nodeName = nodeName_(this.$$element); if ((nodeName === 'a' && (key === 'href' || key === 'xlinkHref')) || (nodeName === 'img' && key === 'src')) { // sanitize a[href] and img[src] values this[key] = value = $$sanitizeUri(value, key === 'src'); } else if (nodeName === 'img' && key === 'srcset' && isDefined(value)) { // sanitize img[srcset] values var result = ""; // first check if there are spaces because it's not the same pattern var trimmedSrcset = trim(value); // ( 999x ,| 999w ,| ,|, ) var srcPattern = /(\s+\d+x\s*,|\s+\d+w\s*,|\s+,|,\s+)/; var pattern = /\s/.test(trimmedSrcset) ? srcPattern : /(,)/; // split srcset into tuple of uri and descriptor except for the last item var rawUris = trimmedSrcset.split(pattern); // for each tuples var nbrUrisWith2parts = Math.floor(rawUris.length / 2); for (var i = 0; i < nbrUrisWith2parts; i++) { var innerIdx = i * 2; // sanitize the uri result += $$sanitizeUri(trim(rawUris[innerIdx]), true); // add the descriptor result += (" " + trim(rawUris[innerIdx + 1])); } // split the last item into uri and descriptor var lastTuple = trim(rawUris[i * 2]).split(/\s/); // sanitize the last uri result += $$sanitizeUri(trim(lastTuple[0]), true); // and add the last descriptor if any if (lastTuple.length === 2) { result += (" " + trim(lastTuple[1])); } this[key] = value = result; } if (writeAttr !== false) { if (value === null || isUndefined(value)) { this.$$element.removeAttr(attrName); } else { if (SIMPLE_ATTR_NAME.test(attrName)) { this.$$element.attr(attrName, value); } else { setSpecialAttr(this.$$element[0], attrName, value); } } } // fire observers var $$observers = this.$$observers; $$observers && forEach($$observers[observer], function(fn) { try { fn(value); } catch (e) { $exceptionHandler(e); } }); }, /** * @ngdoc method * @name $compile.directive.Attributes#$observe * @kind function * * @description * Observes an interpolated attribute. * * The observer function will be invoked once during the next `$digest` following * compilation. The observer is then invoked whenever the interpolated value * changes. * * @param {string} key Normalized key. (ie ngAttribute) . * @param {function(interpolatedValue)} fn Function that will be called whenever the interpolated value of the attribute changes. * See the {@link guide/interpolation#how-text-and-attribute-bindings-work Interpolation * guide} for more info. * @returns {function()} Returns a deregistration function for this observer. */ $observe: function(key, fn) { var attrs = this, $$observers = (attrs.$$observers || (attrs.$$observers = createMap())), listeners = ($$observers[key] || ($$observers[key] = [])); listeners.push(fn); $rootScope.$evalAsync(function() { if (!listeners.$$inter && attrs.hasOwnProperty(key) && !isUndefined(attrs[key])) { // no one registered attribute interpolation function, so lets call it manually fn(attrs[key]); } }); return function() { arrayRemove(listeners, fn); }; } }; function setSpecialAttr(element, attrName, value) { // Attributes names that do not start with letters (such as `(click)`) cannot be set using `setAttribute` // so we have to jump through some hoops to get such an attribute // https://github.com/angular/angular.js/pull/13318 specialAttrHolder.innerHTML = ""; var attributes = specialAttrHolder.firstChild.attributes; var attribute = attributes[0]; // We have to remove the attribute from its container element before we can add it to the destination element attributes.removeNamedItem(attribute.name); attribute.value = value; element.attributes.setNamedItem(attribute); } function safeAddClass($element, className) { try { $element.addClass(className); } catch (e) { // ignore, since it means that we are trying to set class on // SVG element, where class name is read-only. } } var startSymbol = $interpolate.startSymbol(), endSymbol = $interpolate.endSymbol(), denormalizeTemplate = (startSymbol == '{{' && endSymbol == '}}') ? identity : function denormalizeTemplate(template) { return template.replace(/\{\{/g, startSymbol).replace(/}}/g, endSymbol); }, NG_ATTR_BINDING = /^ngAttr[A-Z]/; var MULTI_ELEMENT_DIR_RE = /^(.+)Start$/; compile.$$addBindingInfo = debugInfoEnabled ? function $$addBindingInfo($element, binding) { var bindings = $element.data('$binding') || []; if (isArray(binding)) { bindings = bindings.concat(binding); } else { bindings.push(binding); } $element.data('$binding', bindings); } : noop; compile.$$addBindingClass = debugInfoEnabled ? function $$addBindingClass($element) { safeAddClass($element, 'ng-binding'); } : noop; compile.$$addScopeInfo = debugInfoEnabled ? function $$addScopeInfo($element, scope, isolated, noTemplate) { var dataName = isolated ? (noTemplate ? '$isolateScopeNoTemplate' : '$isolateScope') : '$scope'; $element.data(dataName, scope); } : noop; compile.$$addScopeClass = debugInfoEnabled ? function $$addScopeClass($element, isolated) { safeAddClass($element, isolated ? 'ng-isolate-scope' : 'ng-scope'); } : noop; compile.$$createComment = function(directiveName, comment) { var content = ''; if (debugInfoEnabled) { content = ' ' + (directiveName || '') + ': '; if (comment) content += comment + ' '; } return window.document.createComment(content); }; return compile; //================================ function compile($compileNodes, transcludeFn, maxPriority, ignoreDirective, previousCompileContext) { if (!($compileNodes instanceof jqLite)) { // jquery always rewraps, whereas we need to preserve the original selector so that we can // modify it. $compileNodes = jqLite($compileNodes); } var NOT_EMPTY = /\S+/; // We can not compile top level text elements since text nodes can be merged and we will // not be able to attach scope data to them, so we will wrap them in for (var i = 0, len = $compileNodes.length; i < len; i++) { var domNode = $compileNodes[i]; if (domNode.nodeType === NODE_TYPE_TEXT && domNode.nodeValue.match(NOT_EMPTY) /* non-empty */) { jqLiteWrapNode(domNode, $compileNodes[i] = window.document.createElement('span')); } } var compositeLinkFn = compileNodes($compileNodes, transcludeFn, $compileNodes, maxPriority, ignoreDirective, previousCompileContext); compile.$$addScopeClass($compileNodes); var namespace = null; return function publicLinkFn(scope, cloneConnectFn, options) { assertArg(scope, 'scope'); if (previousCompileContext && previousCompileContext.needsNewScope) { // A parent directive did a replace and a directive on this element asked // for transclusion, which caused us to lose a layer of element on which // we could hold the new transclusion scope, so we will create it manually // here. scope = scope.$parent.$new(); } options = options || {}; var parentBoundTranscludeFn = options.parentBoundTranscludeFn, transcludeControllers = options.transcludeControllers, futureParentElement = options.futureParentElement; // When `parentBoundTranscludeFn` is passed, it is a // `controllersBoundTransclude` function (it was previously passed // as `transclude` to directive.link) so we must unwrap it to get // its `boundTranscludeFn` if (parentBoundTranscludeFn && parentBoundTranscludeFn.$$boundTransclude) { parentBoundTranscludeFn = parentBoundTranscludeFn.$$boundTransclude; } if (!namespace) { namespace = detectNamespaceForChildElements(futureParentElement); } var $linkNode; if (namespace !== 'html') { // When using a directive with replace:true and templateUrl the $compileNodes // (or a child element inside of them) // might change, so we need to recreate the namespace adapted compileNodes // for call to the link function. // Note: This will already clone the nodes... $linkNode = jqLite( wrapTemplate(namespace, jqLite('
').append($compileNodes).html()) ); } else if (cloneConnectFn) { // important!!: we must call our jqLite.clone() since the jQuery one is trying to be smart // and sometimes changes the structure of the DOM. $linkNode = JQLitePrototype.clone.call($compileNodes); } else { $linkNode = $compileNodes; } if (transcludeControllers) { for (var controllerName in transcludeControllers) { $linkNode.data('$' + controllerName + 'Controller', transcludeControllers[controllerName].instance); } } compile.$$addScopeInfo($linkNode, scope); if (cloneConnectFn) cloneConnectFn($linkNode, scope); if (compositeLinkFn) compositeLinkFn(scope, $linkNode, $linkNode, parentBoundTranscludeFn); return $linkNode; }; } function detectNamespaceForChildElements(parentElement) { // TODO: Make this detect MathML as well... var node = parentElement && parentElement[0]; if (!node) { return 'html'; } else { return nodeName_(node) !== 'foreignobject' && toString.call(node).match(/SVG/) ? 'svg' : 'html'; } } /** * Compile function matches each node in nodeList against the directives. Once all directives * for a particular node are collected their compile functions are executed. The compile * functions return values - the linking functions - are combined into a composite linking * function, which is the a linking function for the node. * * @param {NodeList} nodeList an array of nodes or NodeList to compile * @param {function(angular.Scope, cloneAttachFn=)} transcludeFn A linking function, where the * scope argument is auto-generated to the new child of the transcluded parent scope. * @param {DOMElement=} $rootElement If the nodeList is the root of the compilation tree then * the rootElement must be set the jqLite collection of the compile root. This is * needed so that the jqLite collection items can be replaced with widgets. * @param {number=} maxPriority Max directive priority. * @returns {Function} A composite linking function of all of the matched directives or null. */ function compileNodes(nodeList, transcludeFn, $rootElement, maxPriority, ignoreDirective, previousCompileContext) { var linkFns = [], attrs, directives, nodeLinkFn, childNodes, childLinkFn, linkFnFound, nodeLinkFnFound; for (var i = 0; i < nodeList.length; i++) { attrs = new Attributes(); // we must always refer to nodeList[i] since the nodes can be replaced underneath us. directives = collectDirectives(nodeList[i], [], attrs, i === 0 ? maxPriority : undefined, ignoreDirective); nodeLinkFn = (directives.length) ? applyDirectivesToNode(directives, nodeList[i], attrs, transcludeFn, $rootElement, null, [], [], previousCompileContext) : null; if (nodeLinkFn && nodeLinkFn.scope) { compile.$$addScopeClass(attrs.$$element); } childLinkFn = (nodeLinkFn && nodeLinkFn.terminal || !(childNodes = nodeList[i].childNodes) || !childNodes.length) ? null : compileNodes(childNodes, nodeLinkFn ? ( (nodeLinkFn.transcludeOnThisElement || !nodeLinkFn.templateOnThisElement) && nodeLinkFn.transclude) : transcludeFn); if (nodeLinkFn || childLinkFn) { linkFns.push(i, nodeLinkFn, childLinkFn); linkFnFound = true; nodeLinkFnFound = nodeLinkFnFound || nodeLinkFn; } //use the previous context only for the first element in the virtual group previousCompileContext = null; } // return a linking function if we have found anything, null otherwise return linkFnFound ? compositeLinkFn : null; function compositeLinkFn(scope, nodeList, $rootElement, parentBoundTranscludeFn) { var nodeLinkFn, childLinkFn, node, childScope, i, ii, idx, childBoundTranscludeFn; var stableNodeList; if (nodeLinkFnFound) { // copy nodeList so that if a nodeLinkFn removes or adds an element at this DOM level our // offsets don't get screwed up var nodeListLength = nodeList.length; stableNodeList = new Array(nodeListLength); // create a sparse array by only copying the elements which have a linkFn for (i = 0; i < linkFns.length; i+=3) { idx = linkFns[i]; stableNodeList[idx] = nodeList[idx]; } } else { stableNodeList = nodeList; } for (i = 0, ii = linkFns.length; i < ii;) { node = stableNodeList[linkFns[i++]]; nodeLinkFn = linkFns[i++]; childLinkFn = linkFns[i++]; if (nodeLinkFn) { if (nodeLinkFn.scope) { childScope = scope.$new(); compile.$$addScopeInfo(jqLite(node), childScope); } else { childScope = scope; } if (nodeLinkFn.transcludeOnThisElement) { childBoundTranscludeFn = createBoundTranscludeFn( scope, nodeLinkFn.transclude, parentBoundTranscludeFn); } else if (!nodeLinkFn.templateOnThisElement && parentBoundTranscludeFn) { childBoundTranscludeFn = parentBoundTranscludeFn; } else if (!parentBoundTranscludeFn && transcludeFn) { childBoundTranscludeFn = createBoundTranscludeFn(scope, transcludeFn); } else { childBoundTranscludeFn = null; } nodeLinkFn(childLinkFn, childScope, node, $rootElement, childBoundTranscludeFn); } else if (childLinkFn) { childLinkFn(scope, node.childNodes, undefined, parentBoundTranscludeFn); } } } } function createBoundTranscludeFn(scope, transcludeFn, previousBoundTranscludeFn) { function boundTranscludeFn(transcludedScope, cloneFn, controllers, futureParentElement, containingScope) { if (!transcludedScope) { transcludedScope = scope.$new(false, containingScope); transcludedScope.$$transcluded = true; } return transcludeFn(transcludedScope, cloneFn, { parentBoundTranscludeFn: previousBoundTranscludeFn, transcludeControllers: controllers, futureParentElement: futureParentElement }); } // We need to attach the transclusion slots onto the `boundTranscludeFn` // so that they are available inside the `controllersBoundTransclude` function var boundSlots = boundTranscludeFn.$$slots = createMap(); for (var slotName in transcludeFn.$$slots) { if (transcludeFn.$$slots[slotName]) { boundSlots[slotName] = createBoundTranscludeFn(scope, transcludeFn.$$slots[slotName], previousBoundTranscludeFn); } else { boundSlots[slotName] = null; } } return boundTranscludeFn; } /** * Looks for directives on the given node and adds them to the directive collection which is * sorted. * * @param node Node to search. * @param directives An array to which the directives are added to. This array is sorted before * the function returns. * @param attrs The shared attrs object which is used to populate the normalized attributes. * @param {number=} maxPriority Max directive priority. */ function collectDirectives(node, directives, attrs, maxPriority, ignoreDirective) { var nodeType = node.nodeType, attrsMap = attrs.$attr, match, className; switch (nodeType) { case NODE_TYPE_ELEMENT: /* Element */ // use the node name: addDirective(directives, directiveNormalize(nodeName_(node)), 'E', maxPriority, ignoreDirective); // iterate over the attributes for (var attr, name, nName, ngAttrName, value, isNgAttr, nAttrs = node.attributes, j = 0, jj = nAttrs && nAttrs.length; j < jj; j++) { var attrStartName = false; var attrEndName = false; attr = nAttrs[j]; name = attr.name; value = trim(attr.value); // support ngAttr attribute binding ngAttrName = directiveNormalize(name); if (isNgAttr = NG_ATTR_BINDING.test(ngAttrName)) { name = name.replace(PREFIX_REGEXP, '') .substr(8).replace(/_(.)/g, function(match, letter) { return letter.toUpperCase(); }); } var multiElementMatch = ngAttrName.match(MULTI_ELEMENT_DIR_RE); if (multiElementMatch && directiveIsMultiElement(multiElementMatch[1])) { attrStartName = name; attrEndName = name.substr(0, name.length - 5) + 'end'; name = name.substr(0, name.length - 6); } nName = directiveNormalize(name.toLowerCase()); attrsMap[nName] = name; if (isNgAttr || !attrs.hasOwnProperty(nName)) { attrs[nName] = value; if (getBooleanAttrName(node, nName)) { attrs[nName] = true; // presence means true } } addAttrInterpolateDirective(node, directives, value, nName, isNgAttr); addDirective(directives, nName, 'A', maxPriority, ignoreDirective, attrStartName, attrEndName); } // use class as directive className = node.className; if (isObject(className)) { // Maybe SVGAnimatedString className = className.animVal; } if (isString(className) && className !== '') { while (match = CLASS_DIRECTIVE_REGEXP.exec(className)) { nName = directiveNormalize(match[2]); if (addDirective(directives, nName, 'C', maxPriority, ignoreDirective)) { attrs[nName] = trim(match[3]); } className = className.substr(match.index + match[0].length); } } break; case NODE_TYPE_TEXT: /* Text Node */ if (msie === 11) { // Workaround for #11781 while (node.parentNode && node.nextSibling && node.nextSibling.nodeType === NODE_TYPE_TEXT) { node.nodeValue = node.nodeValue + node.nextSibling.nodeValue; node.parentNode.removeChild(node.nextSibling); } } addTextInterpolateDirective(directives, node.nodeValue); break; case NODE_TYPE_COMMENT: /* Comment */ collectCommentDirectives(node, directives, attrs, maxPriority, ignoreDirective); break; } directives.sort(byPriority); return directives; } function collectCommentDirectives(node, directives, attrs, maxPriority, ignoreDirective) { // function created because of performance, try/catch disables // the optimization of the whole function #14848 try { var match = COMMENT_DIRECTIVE_REGEXP.exec(node.nodeValue); if (match) { var nName = directiveNormalize(match[1]); if (addDirective(directives, nName, 'M', maxPriority, ignoreDirective)) { attrs[nName] = trim(match[2]); } } } catch (e) { // turns out that under some circumstances IE9 throws errors when one attempts to read // comment's node value. // Just ignore it and continue. (Can't seem to reproduce in test case.) } } /** * Given a node with an directive-start it collects all of the siblings until it finds * directive-end. * @param node * @param attrStart * @param attrEnd * @returns {*} */ function groupScan(node, attrStart, attrEnd) { var nodes = []; var depth = 0; if (attrStart && node.hasAttribute && node.hasAttribute(attrStart)) { do { if (!node) { throw $compileMinErr('uterdir', "Unterminated attribute, found '{0}' but no matching '{1}' found.", attrStart, attrEnd); } if (node.nodeType == NODE_TYPE_ELEMENT) { if (node.hasAttribute(attrStart)) depth++; if (node.hasAttribute(attrEnd)) depth--; } nodes.push(node); node = node.nextSibling; } while (depth > 0); } else { nodes.push(node); } return jqLite(nodes); } /** * Wrapper for linking function which converts normal linking function into a grouped * linking function. * @param linkFn * @param attrStart * @param attrEnd * @returns {Function} */ function groupElementsLinkFnWrapper(linkFn, attrStart, attrEnd) { return function groupedElementsLink(scope, element, attrs, controllers, transcludeFn) { element = groupScan(element[0], attrStart, attrEnd); return linkFn(scope, element, attrs, controllers, transcludeFn); }; } /** * A function generator that is used to support both eager and lazy compilation * linking function. * @param eager * @param $compileNodes * @param transcludeFn * @param maxPriority * @param ignoreDirective * @param previousCompileContext * @returns {Function} */ function compilationGenerator(eager, $compileNodes, transcludeFn, maxPriority, ignoreDirective, previousCompileContext) { var compiled; if (eager) { return compile($compileNodes, transcludeFn, maxPriority, ignoreDirective, previousCompileContext); } return function lazyCompilation() { if (!compiled) { compiled = compile($compileNodes, transcludeFn, maxPriority, ignoreDirective, previousCompileContext); // Null out all of these references in order to make them eligible for garbage collection // since this is a potentially long lived closure $compileNodes = transcludeFn = previousCompileContext = null; } return compiled.apply(this, arguments); }; } /** * Once the directives have been collected, their compile functions are executed. This method * is responsible for inlining directive templates as well as terminating the application * of the directives if the terminal directive has been reached. * * @param {Array} directives Array of collected directives to execute their compile function. * this needs to be pre-sorted by priority order. * @param {Node} compileNode The raw DOM node to apply the compile functions to * @param {Object} templateAttrs The shared attribute function * @param {function(angular.Scope, cloneAttachFn=)} transcludeFn A linking function, where the * scope argument is auto-generated to the new * child of the transcluded parent scope. * @param {JQLite} jqCollection If we are working on the root of the compile tree then this * argument has the root jqLite array so that we can replace nodes * on it. * @param {Object=} originalReplaceDirective An optional directive that will be ignored when * compiling the transclusion. * @param {Array.} preLinkFns * @param {Array.} postLinkFns * @param {Object} previousCompileContext Context used for previous compilation of the current * node * @returns {Function} linkFn */ function applyDirectivesToNode(directives, compileNode, templateAttrs, transcludeFn, jqCollection, originalReplaceDirective, preLinkFns, postLinkFns, previousCompileContext) { previousCompileContext = previousCompileContext || {}; var terminalPriority = -Number.MAX_VALUE, newScopeDirective = previousCompileContext.newScopeDirective, controllerDirectives = previousCompileContext.controllerDirectives, newIsolateScopeDirective = previousCompileContext.newIsolateScopeDirective, templateDirective = previousCompileContext.templateDirective, nonTlbTranscludeDirective = previousCompileContext.nonTlbTranscludeDirective, hasTranscludeDirective = false, hasTemplate = false, hasElementTranscludeDirective = previousCompileContext.hasElementTranscludeDirective, $compileNode = templateAttrs.$$element = jqLite(compileNode), directive, directiveName, $template, replaceDirective = originalReplaceDirective, childTranscludeFn = transcludeFn, linkFn, didScanForMultipleTransclusion = false, mightHaveMultipleTransclusionError = false, directiveValue; // executes all directives on the current element for (var i = 0, ii = directives.length; i < ii; i++) { directive = directives[i]; var attrStart = directive.$$start; var attrEnd = directive.$$end; // collect multiblock sections if (attrStart) { $compileNode = groupScan(compileNode, attrStart, attrEnd); } $template = undefined; if (terminalPriority > directive.priority) { break; // prevent further processing of directives } if (directiveValue = directive.scope) { // skip the check for directives with async templates, we'll check the derived sync // directive when the template arrives if (!directive.templateUrl) { if (isObject(directiveValue)) { // This directive is trying to add an isolated scope. // Check that there is no scope of any kind already assertNoDuplicate('new/isolated scope', newIsolateScopeDirective || newScopeDirective, directive, $compileNode); newIsolateScopeDirective = directive; } else { // This directive is trying to add a child scope. // Check that there is no isolated scope already assertNoDuplicate('new/isolated scope', newIsolateScopeDirective, directive, $compileNode); } } newScopeDirective = newScopeDirective || directive; } directiveName = directive.name; // If we encounter a condition that can result in transclusion on the directive, // then scan ahead in the remaining directives for others that may cause a multiple // transclusion error to be thrown during the compilation process. If a matching directive // is found, then we know that when we encounter a transcluded directive, we need to eagerly // compile the `transclude` function rather than doing it lazily in order to throw // exceptions at the correct time if (!didScanForMultipleTransclusion && ((directive.replace && (directive.templateUrl || directive.template)) || (directive.transclude && !directive.$$tlb))) { var candidateDirective; for (var scanningIndex = i + 1; candidateDirective = directives[scanningIndex++];) { if ((candidateDirective.transclude && !candidateDirective.$$tlb) || (candidateDirective.replace && (candidateDirective.templateUrl || candidateDirective.template))) { mightHaveMultipleTransclusionError = true; break; } } didScanForMultipleTransclusion = true; } if (!directive.templateUrl && directive.controller) { directiveValue = directive.controller; controllerDirectives = controllerDirectives || createMap(); assertNoDuplicate("'" + directiveName + "' controller", controllerDirectives[directiveName], directive, $compileNode); controllerDirectives[directiveName] = directive; } if (directiveValue = directive.transclude) { hasTranscludeDirective = true; // Special case ngIf and ngRepeat so that we don't complain about duplicate transclusion. // This option should only be used by directives that know how to safely handle element transclusion, // where the transcluded nodes are added or replaced after linking. if (!directive.$$tlb) { assertNoDuplicate('transclusion', nonTlbTranscludeDirective, directive, $compileNode); nonTlbTranscludeDirective = directive; } if (directiveValue == 'element') { hasElementTranscludeDirective = true; terminalPriority = directive.priority; $template = $compileNode; $compileNode = templateAttrs.$$element = jqLite(compile.$$createComment(directiveName, templateAttrs[directiveName])); compileNode = $compileNode[0]; replaceWith(jqCollection, sliceArgs($template), compileNode); // Support: Chrome < 50 // https://github.com/angular/angular.js/issues/14041 // In the versions of V8 prior to Chrome 50, the document fragment that is created // in the `replaceWith` function is improperly garbage collected despite still // being referenced by the `parentNode` property of all of the child nodes. By adding // a reference to the fragment via a different property, we can avoid that incorrect // behavior. // TODO: remove this line after Chrome 50 has been released $template[0].$$parentNode = $template[0].parentNode; childTranscludeFn = compilationGenerator(mightHaveMultipleTransclusionError, $template, transcludeFn, terminalPriority, replaceDirective && replaceDirective.name, { // Don't pass in: // - controllerDirectives - otherwise we'll create duplicates controllers // - newIsolateScopeDirective or templateDirective - combining templates with // element transclusion doesn't make sense. // // We need only nonTlbTranscludeDirective so that we prevent putting transclusion // on the same element more than once. nonTlbTranscludeDirective: nonTlbTranscludeDirective }); } else { var slots = createMap(); $template = jqLite(jqLiteClone(compileNode)).contents(); if (isObject(directiveValue)) { // We have transclusion slots, // collect them up, compile them and store their transclusion functions $template = []; var slotMap = createMap(); var filledSlots = createMap(); // Parse the element selectors forEach(directiveValue, function(elementSelector, slotName) { // If an element selector starts with a ? then it is optional var optional = (elementSelector.charAt(0) === '?'); elementSelector = optional ? elementSelector.substring(1) : elementSelector; slotMap[elementSelector] = slotName; // We explicitly assign `null` since this implies that a slot was defined but not filled. // Later when calling boundTransclusion functions with a slot name we only error if the // slot is `undefined` slots[slotName] = null; // filledSlots contains `true` for all slots that are either optional or have been // filled. This is used to check that we have not missed any required slots filledSlots[slotName] = optional; }); // Add the matching elements into their slot forEach($compileNode.contents(), function(node) { var slotName = slotMap[directiveNormalize(nodeName_(node))]; if (slotName) { filledSlots[slotName] = true; slots[slotName] = slots[slotName] || []; slots[slotName].push(node); } else { $template.push(node); } }); // Check for required slots that were not filled forEach(filledSlots, function(filled, slotName) { if (!filled) { throw $compileMinErr('reqslot', 'Required transclusion slot `{0}` was not filled.', slotName); } }); for (var slotName in slots) { if (slots[slotName]) { // Only define a transclusion function if the slot was filled slots[slotName] = compilationGenerator(mightHaveMultipleTransclusionError, slots[slotName], transcludeFn); } } } $compileNode.empty(); // clear contents childTranscludeFn = compilationGenerator(mightHaveMultipleTransclusionError, $template, transcludeFn, undefined, undefined, { needsNewScope: directive.$$isolateScope || directive.$$newScope}); childTranscludeFn.$$slots = slots; } } if (directive.template) { hasTemplate = true; assertNoDuplicate('template', templateDirective, directive, $compileNode); templateDirective = directive; directiveValue = (isFunction(directive.template)) ? directive.template($compileNode, templateAttrs) : directive.template; directiveValue = denormalizeTemplate(directiveValue); if (directive.replace) { replaceDirective = directive; if (jqLiteIsTextNode(directiveValue)) { $template = []; } else { $template = removeComments(wrapTemplate(directive.templateNamespace, trim(directiveValue))); } compileNode = $template[0]; if ($template.length != 1 || compileNode.nodeType !== NODE_TYPE_ELEMENT) { throw $compileMinErr('tplrt', "Template for directive '{0}' must have exactly one root element. {1}", directiveName, ''); } replaceWith(jqCollection, $compileNode, compileNode); var newTemplateAttrs = {$attr: {}}; // combine directives from the original node and from the template: // - take the array of directives for this element // - split it into two parts, those that already applied (processed) and those that weren't (unprocessed) // - collect directives from the template and sort them by priority // - combine directives as: processed + template + unprocessed var templateDirectives = collectDirectives(compileNode, [], newTemplateAttrs); var unprocessedDirectives = directives.splice(i + 1, directives.length - (i + 1)); if (newIsolateScopeDirective || newScopeDirective) { // The original directive caused the current element to be replaced but this element // also needs to have a new scope, so we need to tell the template directives // that they would need to get their scope from further up, if they require transclusion markDirectiveScope(templateDirectives, newIsolateScopeDirective, newScopeDirective); } directives = directives.concat(templateDirectives).concat(unprocessedDirectives); mergeTemplateAttributes(templateAttrs, newTemplateAttrs); ii = directives.length; } else { $compileNode.html(directiveValue); } } if (directive.templateUrl) { hasTemplate = true; assertNoDuplicate('template', templateDirective, directive, $compileNode); templateDirective = directive; if (directive.replace) { replaceDirective = directive; } /* jshint -W021 */ nodeLinkFn = compileTemplateUrl(directives.splice(i, directives.length - i), $compileNode, /* jshint +W021 */ templateAttrs, jqCollection, hasTranscludeDirective && childTranscludeFn, preLinkFns, postLinkFns, { controllerDirectives: controllerDirectives, newScopeDirective: (newScopeDirective !== directive) && newScopeDirective, newIsolateScopeDirective: newIsolateScopeDirective, templateDirective: templateDirective, nonTlbTranscludeDirective: nonTlbTranscludeDirective }); ii = directives.length; } else if (directive.compile) { try { linkFn = directive.compile($compileNode, templateAttrs, childTranscludeFn); var context = directive.$$originalDirective || directive; if (isFunction(linkFn)) { addLinkFns(null, bind(context, linkFn), attrStart, attrEnd); } else if (linkFn) { addLinkFns(bind(context, linkFn.pre), bind(context, linkFn.post), attrStart, attrEnd); } } catch (e) { $exceptionHandler(e, startingTag($compileNode)); } } if (directive.terminal) { nodeLinkFn.terminal = true; terminalPriority = Math.max(terminalPriority, directive.priority); } } nodeLinkFn.scope = newScopeDirective && newScopeDirective.scope === true; nodeLinkFn.transcludeOnThisElement = hasTranscludeDirective; nodeLinkFn.templateOnThisElement = hasTemplate; nodeLinkFn.transclude = childTranscludeFn; previousCompileContext.hasElementTranscludeDirective = hasElementTranscludeDirective; // might be normal or delayed nodeLinkFn depending on if templateUrl is present return nodeLinkFn; //////////////////// function addLinkFns(pre, post, attrStart, attrEnd) { if (pre) { if (attrStart) pre = groupElementsLinkFnWrapper(pre, attrStart, attrEnd); pre.require = directive.require; pre.directiveName = directiveName; if (newIsolateScopeDirective === directive || directive.$$isolateScope) { pre = cloneAndAnnotateFn(pre, {isolateScope: true}); } preLinkFns.push(pre); } if (post) { if (attrStart) post = groupElementsLinkFnWrapper(post, attrStart, attrEnd); post.require = directive.require; post.directiveName = directiveName; if (newIsolateScopeDirective === directive || directive.$$isolateScope) { post = cloneAndAnnotateFn(post, {isolateScope: true}); } postLinkFns.push(post); } } function nodeLinkFn(childLinkFn, scope, linkNode, $rootElement, boundTranscludeFn) { var i, ii, linkFn, isolateScope, controllerScope, elementControllers, transcludeFn, $element, attrs, scopeBindingInfo; if (compileNode === linkNode) { attrs = templateAttrs; $element = templateAttrs.$$element; } else { $element = jqLite(linkNode); attrs = new Attributes($element, templateAttrs); } controllerScope = scope; if (newIsolateScopeDirective) { isolateScope = scope.$new(true); } else if (newScopeDirective) { controllerScope = scope.$parent; } if (boundTranscludeFn) { // track `boundTranscludeFn` so it can be unwrapped if `transcludeFn` // is later passed as `parentBoundTranscludeFn` to `publicLinkFn` transcludeFn = controllersBoundTransclude; transcludeFn.$$boundTransclude = boundTranscludeFn; // expose the slots on the `$transclude` function transcludeFn.isSlotFilled = function(slotName) { return !!boundTranscludeFn.$$slots[slotName]; }; } if (controllerDirectives) { elementControllers = setupControllers($element, attrs, transcludeFn, controllerDirectives, isolateScope, scope, newIsolateScopeDirective); } if (newIsolateScopeDirective) { // Initialize isolate scope bindings for new isolate scope directive. compile.$$addScopeInfo($element, isolateScope, true, !(templateDirective && (templateDirective === newIsolateScopeDirective || templateDirective === newIsolateScopeDirective.$$originalDirective))); compile.$$addScopeClass($element, true); isolateScope.$$isolateBindings = newIsolateScopeDirective.$$isolateBindings; scopeBindingInfo = initializeDirectiveBindings(scope, attrs, isolateScope, isolateScope.$$isolateBindings, newIsolateScopeDirective); if (scopeBindingInfo.removeWatches) { isolateScope.$on('$destroy', scopeBindingInfo.removeWatches); } } // Initialize bindToController bindings for (var name in elementControllers) { var controllerDirective = controllerDirectives[name]; var controller = elementControllers[name]; var bindings = controllerDirective.$$bindings.bindToController; if (controller.identifier && bindings) { controller.bindingInfo = initializeDirectiveBindings(controllerScope, attrs, controller.instance, bindings, controllerDirective); } else { controller.bindingInfo = {}; } var controllerResult = controller(); if (controllerResult !== controller.instance) { // If the controller constructor has a return value, overwrite the instance // from setupControllers controller.instance = controllerResult; $element.data('$' + controllerDirective.name + 'Controller', controllerResult); controller.bindingInfo.removeWatches && controller.bindingInfo.removeWatches(); controller.bindingInfo = initializeDirectiveBindings(controllerScope, attrs, controller.instance, bindings, controllerDirective); } } // Bind the required controllers to the controller, if `require` is an object and `bindToController` is truthy forEach(controllerDirectives, function(controllerDirective, name) { var require = controllerDirective.require; if (controllerDirective.bindToController && !isArray(require) && isObject(require)) { extend(elementControllers[name].instance, getControllers(name, require, $element, elementControllers)); } }); // Handle the init and destroy lifecycle hooks on all controllers that have them forEach(elementControllers, function(controller) { var controllerInstance = controller.instance; if (isFunction(controllerInstance.$onChanges)) { try { controllerInstance.$onChanges(controller.bindingInfo.initialChanges); } catch (e) { $exceptionHandler(e); } } if (isFunction(controllerInstance.$onInit)) { try { controllerInstance.$onInit(); } catch (e) { $exceptionHandler(e); } } if (isFunction(controllerInstance.$doCheck)) { controllerScope.$watch(function() { controllerInstance.$doCheck(); }); controllerInstance.$doCheck(); } if (isFunction(controllerInstance.$onDestroy)) { controllerScope.$on('$destroy', function callOnDestroyHook() { controllerInstance.$onDestroy(); }); } }); // PRELINKING for (i = 0, ii = preLinkFns.length; i < ii; i++) { linkFn = preLinkFns[i]; invokeLinkFn(linkFn, linkFn.isolateScope ? isolateScope : scope, $element, attrs, linkFn.require && getControllers(linkFn.directiveName, linkFn.require, $element, elementControllers), transcludeFn ); } // RECURSION // We only pass the isolate scope, if the isolate directive has a template, // otherwise the child elements do not belong to the isolate directive. var scopeToChild = scope; if (newIsolateScopeDirective && (newIsolateScopeDirective.template || newIsolateScopeDirective.templateUrl === null)) { scopeToChild = isolateScope; } childLinkFn && childLinkFn(scopeToChild, linkNode.childNodes, undefined, boundTranscludeFn); // POSTLINKING for (i = postLinkFns.length - 1; i >= 0; i--) { linkFn = postLinkFns[i]; invokeLinkFn(linkFn, linkFn.isolateScope ? isolateScope : scope, $element, attrs, linkFn.require && getControllers(linkFn.directiveName, linkFn.require, $element, elementControllers), transcludeFn ); } // Trigger $postLink lifecycle hooks forEach(elementControllers, function(controller) { var controllerInstance = controller.instance; if (isFunction(controllerInstance.$postLink)) { controllerInstance.$postLink(); } }); // This is the function that is injected as `$transclude`. // Note: all arguments are optional! function controllersBoundTransclude(scope, cloneAttachFn, futureParentElement, slotName) { var transcludeControllers; // No scope passed in: if (!isScope(scope)) { slotName = futureParentElement; futureParentElement = cloneAttachFn; cloneAttachFn = scope; scope = undefined; } if (hasElementTranscludeDirective) { transcludeControllers = elementControllers; } if (!futureParentElement) { futureParentElement = hasElementTranscludeDirective ? $element.parent() : $element; } if (slotName) { // slotTranscludeFn can be one of three things: // * a transclude function - a filled slot // * `null` - an optional slot that was not filled // * `undefined` - a slot that was not declared (i.e. invalid) var slotTranscludeFn = boundTranscludeFn.$$slots[slotName]; if (slotTranscludeFn) { return slotTranscludeFn(scope, cloneAttachFn, transcludeControllers, futureParentElement, scopeToChild); } else if (isUndefined(slotTranscludeFn)) { throw $compileMinErr('noslot', 'No parent directive that requires a transclusion with slot name "{0}". ' + 'Element: {1}', slotName, startingTag($element)); } } else { return boundTranscludeFn(scope, cloneAttachFn, transcludeControllers, futureParentElement, scopeToChild); } } } } function getControllers(directiveName, require, $element, elementControllers) { var value; if (isString(require)) { var match = require.match(REQUIRE_PREFIX_REGEXP); var name = require.substring(match[0].length); var inheritType = match[1] || match[3]; var optional = match[2] === '?'; //If only parents then start at the parent element if (inheritType === '^^') { $element = $element.parent(); //Otherwise attempt getting the controller from elementControllers in case //the element is transcluded (and has no data) and to avoid .data if possible } else { value = elementControllers && elementControllers[name]; value = value && value.instance; } if (!value) { var dataName = '$' + name + 'Controller'; value = inheritType ? $element.inheritedData(dataName) : $element.data(dataName); } if (!value && !optional) { throw $compileMinErr('ctreq', "Controller '{0}', required by directive '{1}', can't be found!", name, directiveName); } } else if (isArray(require)) { value = []; for (var i = 0, ii = require.length; i < ii; i++) { value[i] = getControllers(directiveName, require[i], $element, elementControllers); } } else if (isObject(require)) { value = {}; forEach(require, function(controller, property) { value[property] = getControllers(directiveName, controller, $element, elementControllers); }); } return value || null; } function setupControllers($element, attrs, transcludeFn, controllerDirectives, isolateScope, scope, newIsolateScopeDirective) { var elementControllers = createMap(); for (var controllerKey in controllerDirectives) { var directive = controllerDirectives[controllerKey]; var locals = { $scope: directive === newIsolateScopeDirective || directive.$$isolateScope ? isolateScope : scope, $element: $element, $attrs: attrs, $transclude: transcludeFn }; var controller = directive.controller; if (controller == '@') { controller = attrs[directive.name]; } var controllerInstance = $controller(controller, locals, true, directive.controllerAs); // For directives with element transclusion the element is a comment. // In this case .data will not attach any data. // Instead, we save the controllers for the element in a local hash and attach to .data // later, once we have the actual element. elementControllers[directive.name] = controllerInstance; $element.data('$' + directive.name + 'Controller', controllerInstance.instance); } return elementControllers; } // Depending upon the context in which a directive finds itself it might need to have a new isolated // or child scope created. For instance: // * if the directive has been pulled into a template because another directive with a higher priority // asked for element transclusion // * if the directive itself asks for transclusion but it is at the root of a template and the original // element was replaced. See https://github.com/angular/angular.js/issues/12936 function markDirectiveScope(directives, isolateScope, newScope) { for (var j = 0, jj = directives.length; j < jj; j++) { directives[j] = inherit(directives[j], {$$isolateScope: isolateScope, $$newScope: newScope}); } } /** * looks up the directive and decorates it with exception handling and proper parameters. We * call this the boundDirective. * * @param {string} name name of the directive to look up. * @param {string} location The directive must be found in specific format. * String containing any of theses characters: * * * `E`: element name * * `A': attribute * * `C`: class * * `M`: comment * @returns {boolean} true if directive was added. */ function addDirective(tDirectives, name, location, maxPriority, ignoreDirective, startAttrName, endAttrName) { if (name === ignoreDirective) return null; var match = null; if (hasDirectives.hasOwnProperty(name)) { for (var directive, directives = $injector.get(name + Suffix), i = 0, ii = directives.length; i < ii; i++) { try { directive = directives[i]; if ((isUndefined(maxPriority) || maxPriority > directive.priority) && directive.restrict.indexOf(location) != -1) { if (startAttrName) { directive = inherit(directive, {$$start: startAttrName, $$end: endAttrName}); } if (!directive.$$bindings) { var bindings = directive.$$bindings = parseDirectiveBindings(directive, directive.name); if (isObject(bindings.isolateScope)) { directive.$$isolateBindings = bindings.isolateScope; } } tDirectives.push(directive); match = directive; } } catch (e) { $exceptionHandler(e); } } } return match; } /** * looks up the directive and returns true if it is a multi-element directive, * and therefore requires DOM nodes between -start and -end markers to be grouped * together. * * @param {string} name name of the directive to look up. * @returns true if directive was registered as multi-element. */ function directiveIsMultiElement(name) { if (hasDirectives.hasOwnProperty(name)) { for (var directive, directives = $injector.get(name + Suffix), i = 0, ii = directives.length; i < ii; i++) { directive = directives[i]; if (directive.multiElement) { return true; } } } return false; } /** * When the element is replaced with HTML template then the new attributes * on the template need to be merged with the existing attributes in the DOM. * The desired effect is to have both of the attributes present. * * @param {object} dst destination attributes (original DOM) * @param {object} src source attributes (from the directive template) */ function mergeTemplateAttributes(dst, src) { var srcAttr = src.$attr, dstAttr = dst.$attr, $element = dst.$$element; // reapply the old attributes to the new element forEach(dst, function(value, key) { if (key.charAt(0) != '$') { if (src[key] && src[key] !== value) { value += (key === 'style' ? ';' : ' ') + src[key]; } dst.$set(key, value, true, srcAttr[key]); } }); // copy the new attributes on the old attrs object forEach(src, function(value, key) { // Check if we already set this attribute in the loop above. // `dst` will never contain hasOwnProperty as DOM parser won't let it. // You will get an "InvalidCharacterError: DOM Exception 5" error if you // have an attribute like "has-own-property" or "data-has-own-property", etc. if (!dst.hasOwnProperty(key) && key.charAt(0) !== '$') { dst[key] = value; if (key !== 'class' && key !== 'style') { dstAttr[key] = srcAttr[key]; } } }); } function compileTemplateUrl(directives, $compileNode, tAttrs, $rootElement, childTranscludeFn, preLinkFns, postLinkFns, previousCompileContext) { var linkQueue = [], afterTemplateNodeLinkFn, afterTemplateChildLinkFn, beforeTemplateCompileNode = $compileNode[0], origAsyncDirective = directives.shift(), derivedSyncDirective = inherit(origAsyncDirective, { templateUrl: null, transclude: null, replace: null, $$originalDirective: origAsyncDirective }), templateUrl = (isFunction(origAsyncDirective.templateUrl)) ? origAsyncDirective.templateUrl($compileNode, tAttrs) : origAsyncDirective.templateUrl, templateNamespace = origAsyncDirective.templateNamespace; $compileNode.empty(); $templateRequest(templateUrl) .then(function(content) { var compileNode, tempTemplateAttrs, $template, childBoundTranscludeFn; content = denormalizeTemplate(content); if (origAsyncDirective.replace) { if (jqLiteIsTextNode(content)) { $template = []; } else { $template = removeComments(wrapTemplate(templateNamespace, trim(content))); } compileNode = $template[0]; if ($template.length != 1 || compileNode.nodeType !== NODE_TYPE_ELEMENT) { throw $compileMinErr('tplrt', "Template for directive '{0}' must have exactly one root element. {1}", origAsyncDirective.name, templateUrl); } tempTemplateAttrs = {$attr: {}}; replaceWith($rootElement, $compileNode, compileNode); var templateDirectives = collectDirectives(compileNode, [], tempTemplateAttrs); if (isObject(origAsyncDirective.scope)) { // the original directive that caused the template to be loaded async required // an isolate scope markDirectiveScope(templateDirectives, true); } directives = templateDirectives.concat(directives); mergeTemplateAttributes(tAttrs, tempTemplateAttrs); } else { compileNode = beforeTemplateCompileNode; $compileNode.html(content); } directives.unshift(derivedSyncDirective); afterTemplateNodeLinkFn = applyDirectivesToNode(directives, compileNode, tAttrs, childTranscludeFn, $compileNode, origAsyncDirective, preLinkFns, postLinkFns, previousCompileContext); forEach($rootElement, function(node, i) { if (node == compileNode) { $rootElement[i] = $compileNode[0]; } }); afterTemplateChildLinkFn = compileNodes($compileNode[0].childNodes, childTranscludeFn); while (linkQueue.length) { var scope = linkQueue.shift(), beforeTemplateLinkNode = linkQueue.shift(), linkRootElement = linkQueue.shift(), boundTranscludeFn = linkQueue.shift(), linkNode = $compileNode[0]; if (scope.$$destroyed) continue; if (beforeTemplateLinkNode !== beforeTemplateCompileNode) { var oldClasses = beforeTemplateLinkNode.className; if (!(previousCompileContext.hasElementTranscludeDirective && origAsyncDirective.replace)) { // it was cloned therefore we have to clone as well. linkNode = jqLiteClone(compileNode); } replaceWith(linkRootElement, jqLite(beforeTemplateLinkNode), linkNode); // Copy in CSS classes from original node safeAddClass(jqLite(linkNode), oldClasses); } if (afterTemplateNodeLinkFn.transcludeOnThisElement) { childBoundTranscludeFn = createBoundTranscludeFn(scope, afterTemplateNodeLinkFn.transclude, boundTranscludeFn); } else { childBoundTranscludeFn = boundTranscludeFn; } afterTemplateNodeLinkFn(afterTemplateChildLinkFn, scope, linkNode, $rootElement, childBoundTranscludeFn); } linkQueue = null; }); return function delayedNodeLinkFn(ignoreChildLinkFn, scope, node, rootElement, boundTranscludeFn) { var childBoundTranscludeFn = boundTranscludeFn; if (scope.$$destroyed) return; if (linkQueue) { linkQueue.push(scope, node, rootElement, childBoundTranscludeFn); } else { if (afterTemplateNodeLinkFn.transcludeOnThisElement) { childBoundTranscludeFn = createBoundTranscludeFn(scope, afterTemplateNodeLinkFn.transclude, boundTranscludeFn); } afterTemplateNodeLinkFn(afterTemplateChildLinkFn, scope, node, rootElement, childBoundTranscludeFn); } }; } /** * Sorting function for bound directives. */ function byPriority(a, b) { var diff = b.priority - a.priority; if (diff !== 0) return diff; if (a.name !== b.name) return (a.name < b.name) ? -1 : 1; return a.index - b.index; } function assertNoDuplicate(what, previousDirective, directive, element) { function wrapModuleNameIfDefined(moduleName) { return moduleName ? (' (module: ' + moduleName + ')') : ''; } if (previousDirective) { throw $compileMinErr('multidir', 'Multiple directives [{0}{1}, {2}{3}] asking for {4} on: {5}', previousDirective.name, wrapModuleNameIfDefined(previousDirective.$$moduleName), directive.name, wrapModuleNameIfDefined(directive.$$moduleName), what, startingTag(element)); } } function addTextInterpolateDirective(directives, text) { var interpolateFn = $interpolate(text, true); if (interpolateFn) { directives.push({ priority: 0, compile: function textInterpolateCompileFn(templateNode) { var templateNodeParent = templateNode.parent(), hasCompileParent = !!templateNodeParent.length; // When transcluding a template that has bindings in the root // we don't have a parent and thus need to add the class during linking fn. if (hasCompileParent) compile.$$addBindingClass(templateNodeParent); return function textInterpolateLinkFn(scope, node) { var parent = node.parent(); if (!hasCompileParent) compile.$$addBindingClass(parent); compile.$$addBindingInfo(parent, interpolateFn.expressions); scope.$watch(interpolateFn, function interpolateFnWatchAction(value) { node[0].nodeValue = value; }); }; } }); } } function wrapTemplate(type, template) { type = lowercase(type || 'html'); switch (type) { case 'svg': case 'math': var wrapper = window.document.createElement('div'); wrapper.innerHTML = '<' + type + '>' + template + ''; return wrapper.childNodes[0].childNodes; default: return template; } } function getTrustedContext(node, attrNormalizedName) { if (attrNormalizedName == "srcdoc") { return $sce.HTML; } var tag = nodeName_(node); // maction[xlink:href] can source SVG. It's not limited to . if (attrNormalizedName == "xlinkHref" || (tag == "form" && attrNormalizedName == "action") || (tag != "img" && (attrNormalizedName == "src" || attrNormalizedName == "ngSrc"))) { return $sce.RESOURCE_URL; } } function addAttrInterpolateDirective(node, directives, value, name, allOrNothing) { var trustedContext = getTrustedContext(node, name); allOrNothing = ALL_OR_NOTHING_ATTRS[name] || allOrNothing; var interpolateFn = $interpolate(value, true, trustedContext, allOrNothing); // no interpolation found -> ignore if (!interpolateFn) return; if (name === "multiple" && nodeName_(node) === "select") { throw $compileMinErr("selmulti", "Binding to the 'multiple' attribute is not supported. Element: {0}", startingTag(node)); } directives.push({ priority: 100, compile: function() { return { pre: function attrInterpolatePreLinkFn(scope, element, attr) { var $$observers = (attr.$$observers || (attr.$$observers = createMap())); if (EVENT_HANDLER_ATTR_REGEXP.test(name)) { throw $compileMinErr('nodomevents', "Interpolations for HTML DOM event attributes are disallowed. Please use the " + "ng- versions (such as ng-click instead of onclick) instead."); } // If the attribute has changed since last $interpolate()ed var newValue = attr[name]; if (newValue !== value) { // we need to interpolate again since the attribute value has been updated // (e.g. by another directive's compile function) // ensure unset/empty values make interpolateFn falsy interpolateFn = newValue && $interpolate(newValue, true, trustedContext, allOrNothing); value = newValue; } // if attribute was updated so that there is no interpolation going on we don't want to // register any observers if (!interpolateFn) return; // initialize attr object so that it's ready in case we need the value for isolate // scope initialization, otherwise the value would not be available from isolate // directive's linking fn during linking phase attr[name] = interpolateFn(scope); ($$observers[name] || ($$observers[name] = [])).$$inter = true; (attr.$$observers && attr.$$observers[name].$$scope || scope). $watch(interpolateFn, function interpolateFnWatchAction(newValue, oldValue) { //special case for class attribute addition + removal //so that class changes can tap into the animation //hooks provided by the $animate service. Be sure to //skip animations when the first digest occurs (when //both the new and the old values are the same) since //the CSS classes are the non-interpolated values if (name === 'class' && newValue != oldValue) { attr.$updateClass(newValue, oldValue); } else { attr.$set(name, newValue); } }); } }; } }); } /** * This is a special jqLite.replaceWith, which can replace items which * have no parents, provided that the containing jqLite collection is provided. * * @param {JqLite=} $rootElement The root of the compile tree. Used so that we can replace nodes * in the root of the tree. * @param {JqLite} elementsToRemove The jqLite element which we are going to replace. We keep * the shell, but replace its DOM node reference. * @param {Node} newNode The new DOM node. */ function replaceWith($rootElement, elementsToRemove, newNode) { var firstElementToRemove = elementsToRemove[0], removeCount = elementsToRemove.length, parent = firstElementToRemove.parentNode, i, ii; if ($rootElement) { for (i = 0, ii = $rootElement.length; i < ii; i++) { if ($rootElement[i] == firstElementToRemove) { $rootElement[i++] = newNode; for (var j = i, j2 = j + removeCount - 1, jj = $rootElement.length; j < jj; j++, j2++) { if (j2 < jj) { $rootElement[j] = $rootElement[j2]; } else { delete $rootElement[j]; } } $rootElement.length -= removeCount - 1; // If the replaced element is also the jQuery .context then replace it // .context is a deprecated jQuery api, so we should set it only when jQuery set it // http://api.jquery.com/context/ if ($rootElement.context === firstElementToRemove) { $rootElement.context = newNode; } break; } } } if (parent) { parent.replaceChild(newNode, firstElementToRemove); } // Append all the `elementsToRemove` to a fragment. This will... // - remove them from the DOM // - allow them to still be traversed with .nextSibling // - allow a single fragment.qSA to fetch all elements being removed var fragment = window.document.createDocumentFragment(); for (i = 0; i < removeCount; i++) { fragment.appendChild(elementsToRemove[i]); } if (jqLite.hasData(firstElementToRemove)) { // Copy over user data (that includes Angular's $scope etc.). Don't copy private // data here because there's no public interface in jQuery to do that and copying over // event listeners (which is the main use of private data) wouldn't work anyway. jqLite.data(newNode, jqLite.data(firstElementToRemove)); // Remove $destroy event listeners from `firstElementToRemove` jqLite(firstElementToRemove).off('$destroy'); } // Cleanup any data/listeners on the elements and children. // This includes invoking the $destroy event on any elements with listeners. jqLite.cleanData(fragment.querySelectorAll('*')); // Update the jqLite collection to only contain the `newNode` for (i = 1; i < removeCount; i++) { delete elementsToRemove[i]; } elementsToRemove[0] = newNode; elementsToRemove.length = 1; } function cloneAndAnnotateFn(fn, annotation) { return extend(function() { return fn.apply(null, arguments); }, fn, annotation); } function invokeLinkFn(linkFn, scope, $element, attrs, controllers, transcludeFn) { try { linkFn(scope, $element, attrs, controllers, transcludeFn); } catch (e) { $exceptionHandler(e, startingTag($element)); } } // Set up $watches for isolate scope and controller bindings. This process // only occurs for isolate scopes and new scopes with controllerAs. function initializeDirectiveBindings(scope, attrs, destination, bindings, directive) { var removeWatchCollection = []; var initialChanges = {}; var changes; forEach(bindings, function initializeBinding(definition, scopeName) { var attrName = definition.attrName, optional = definition.optional, mode = definition.mode, // @, =, <, or & lastValue, parentGet, parentSet, compare, removeWatch; switch (mode) { case '@': if (!optional && !hasOwnProperty.call(attrs, attrName)) { destination[scopeName] = attrs[attrName] = void 0; } attrs.$observe(attrName, function(value) { if (isString(value) || isBoolean(value)) { var oldValue = destination[scopeName]; recordChanges(scopeName, value, oldValue); destination[scopeName] = value; } }); attrs.$$observers[attrName].$$scope = scope; lastValue = attrs[attrName]; if (isString(lastValue)) { // If the attribute has been provided then we trigger an interpolation to ensure // the value is there for use in the link fn destination[scopeName] = $interpolate(lastValue)(scope); } else if (isBoolean(lastValue)) { // If the attributes is one of the BOOLEAN_ATTR then Angular will have converted // the value to boolean rather than a string, so we special case this situation destination[scopeName] = lastValue; } initialChanges[scopeName] = new SimpleChange(_UNINITIALIZED_VALUE, destination[scopeName]); break; case '=': if (!hasOwnProperty.call(attrs, attrName)) { if (optional) break; attrs[attrName] = void 0; } if (optional && !attrs[attrName]) break; parentGet = $parse(attrs[attrName]); if (parentGet.literal) { compare = equals; } else { compare = function simpleCompare(a, b) { return a === b || (a !== a && b !== b); }; } parentSet = parentGet.assign || function() { // reset the change, or we will throw this exception on every $digest lastValue = destination[scopeName] = parentGet(scope); throw $compileMinErr('nonassign', "Expression '{0}' in attribute '{1}' used with directive '{2}' is non-assignable!", attrs[attrName], attrName, directive.name); }; lastValue = destination[scopeName] = parentGet(scope); var parentValueWatch = function parentValueWatch(parentValue) { if (!compare(parentValue, destination[scopeName])) { // we are out of sync and need to copy if (!compare(parentValue, lastValue)) { // parent changed and it has precedence destination[scopeName] = parentValue; } else { // if the parent can be assigned then do so parentSet(scope, parentValue = destination[scopeName]); } } return lastValue = parentValue; }; parentValueWatch.$stateful = true; if (definition.collection) { removeWatch = scope.$watchCollection(attrs[attrName], parentValueWatch); } else { removeWatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal); } removeWatchCollection.push(removeWatch); break; case '<': if (!hasOwnProperty.call(attrs, attrName)) { if (optional) break; attrs[attrName] = void 0; } if (optional && !attrs[attrName]) break; parentGet = $parse(attrs[attrName]); var initialValue = destination[scopeName] = parentGet(scope); initialChanges[scopeName] = new SimpleChange(_UNINITIALIZED_VALUE, destination[scopeName]); removeWatch = scope.$watch(parentGet, function parentValueWatchAction(newValue, oldValue) { if (oldValue === newValue) { if (oldValue === initialValue) return; oldValue = initialValue; } recordChanges(scopeName, newValue, oldValue); destination[scopeName] = newValue; }, parentGet.literal); removeWatchCollection.push(removeWatch); break; case '&': // Don't assign Object.prototype method to scope parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop; // Don't assign noop to destination if expression is not valid if (parentGet === noop && optional) break; destination[scopeName] = function(locals) { return parentGet(scope, locals); }; break; } }); function recordChanges(key, currentValue, previousValue) { if (isFunction(destination.$onChanges) && currentValue !== previousValue) { // If we have not already scheduled the top level onChangesQueue handler then do so now if (!onChangesQueue) { scope.$$postDigest(flushOnChangesQueue); onChangesQueue = []; } // If we have not already queued a trigger of onChanges for this controller then do so now if (!changes) { changes = {}; onChangesQueue.push(triggerOnChangesHook); } // If the has been a change on this property already then we need to reuse the previous value if (changes[key]) { previousValue = changes[key].previousValue; } // Store this change changes[key] = new SimpleChange(previousValue, currentValue); } } function triggerOnChangesHook() { destination.$onChanges(changes); // Now clear the changes so that we schedule onChanges when more changes arrive changes = undefined; } return { initialChanges: initialChanges, removeWatches: removeWatchCollection.length && function removeWatches() { for (var i = 0, ii = removeWatchCollection.length; i < ii; ++i) { removeWatchCollection[i](); } } }; } }]; } function SimpleChange(previous, current) { this.previousValue = previous; this.currentValue = current; } SimpleChange.prototype.isFirstChange = function() { return this.previousValue === _UNINITIALIZED_VALUE; }; var PREFIX_REGEXP = /^((?:x|data)[\:\-_])/i; /** * Converts all accepted directives format into proper directive name. * @param name Name to normalize */ function directiveNormalize(name) { return camelCase(name.replace(PREFIX_REGEXP, '')); } /** * @ngdoc type * @name $compile.directive.Attributes * * @description * A shared object between directive compile / linking functions which contains normalized DOM * element attributes. The values reflect current binding state `{{ }}`. The normalization is * needed since all of these are treated as equivalent in Angular: * * ``` * * ``` */ /** * @ngdoc property * @name $compile.directive.Attributes#$attr * * @description * A map of DOM element attribute names to the normalized name. This is * needed to do reverse lookup from normalized name back to actual name. */ /** * @ngdoc method * @name $compile.directive.Attributes#$set * @kind function * * @description * Set DOM element attribute value. * * * @param {string} name Normalized element attribute name of the property to modify. The name is * reverse-translated using the {@link ng.$compile.directive.Attributes#$attr $attr} * property to the original name. * @param {string} value Value to set the attribute to. The value can be an interpolated string. */ /** * Closure compiler type information */ function nodesetLinkingFn( /* angular.Scope */ scope, /* NodeList */ nodeList, /* Element */ rootElement, /* function(Function) */ boundTranscludeFn ) {} function directiveLinkingFn( /* nodesetLinkingFn */ nodesetLinkingFn, /* angular.Scope */ scope, /* Node */ node, /* Element */ rootElement, /* function(Function) */ boundTranscludeFn ) {} function tokenDifference(str1, str2) { var values = '', tokens1 = str1.split(/\s+/), tokens2 = str2.split(/\s+/); outer: for (var i = 0; i < tokens1.length; i++) { var token = tokens1[i]; for (var j = 0; j < tokens2.length; j++) { if (token == tokens2[j]) continue outer; } values += (values.length > 0 ? ' ' : '') + token; } return values; } function removeComments(jqNodes) { jqNodes = jqLite(jqNodes); var i = jqNodes.length; if (i <= 1) { return jqNodes; } while (i--) { var node = jqNodes[i]; if (node.nodeType === NODE_TYPE_COMMENT) { splice.call(jqNodes, i, 1); } } return jqNodes; } var $controllerMinErr = minErr('$controller'); var CNTRL_REG = /^(\S+)(\s+as\s+([\w$]+))?$/; function identifierForController(controller, ident) { if (ident && isString(ident)) return ident; if (isString(controller)) { var match = CNTRL_REG.exec(controller); if (match) return match[3]; } } /** * @ngdoc provider * @name $controllerProvider * @description * The {@link ng.$controller $controller service} is used by Angular to create new * controllers. * * This provider allows controller registration via the * {@link ng.$controllerProvider#register register} method. */ function $ControllerProvider() { var controllers = {}, globals = false; /** * @ngdoc method * @name $controllerProvider#has * @param {string} name Controller name to check. */ this.has = function(name) { return controllers.hasOwnProperty(name); }; /** * @ngdoc method * @name $controllerProvider#register * @param {string|Object} name Controller name, or an object map of controllers where the keys are * the names and the values are the constructors. * @param {Function|Array} constructor Controller constructor fn (optionally decorated with DI * annotations in the array notation). */ this.register = function(name, constructor) { assertNotHasOwnProperty(name, 'controller'); if (isObject(name)) { extend(controllers, name); } else { controllers[name] = constructor; } }; /** * @ngdoc method * @name $controllerProvider#allowGlobals * @description If called, allows `$controller` to find controller constructors on `window` */ this.allowGlobals = function() { globals = true; }; this.$get = ['$injector', '$window', function($injector, $window) { /** * @ngdoc service * @name $controller * @requires $injector * * @param {Function|string} constructor If called with a function then it's considered to be the * controller constructor function. Otherwise it's considered to be a string which is used * to retrieve the controller constructor using the following steps: * * * check if a controller with given name is registered via `$controllerProvider` * * check if evaluating the string on the current scope returns a constructor * * if $controllerProvider#allowGlobals, check `window[constructor]` on the global * `window` object (not recommended) * * The string can use the `controller as property` syntax, where the controller instance is published * as the specified property on the `scope`; the `scope` must be injected into `locals` param for this * to work correctly. * * @param {Object} locals Injection locals for Controller. * @return {Object} Instance of given controller. * * @description * `$controller` service is responsible for instantiating controllers. * * It's just a simple call to {@link auto.$injector $injector}, but extracted into * a service, so that one can override this service with [BC version](https://gist.github.com/1649788). */ return function $controller(expression, locals, later, ident) { // PRIVATE API: // param `later` --- indicates that the controller's constructor is invoked at a later time. // If true, $controller will allocate the object with the correct // prototype chain, but will not invoke the controller until a returned // callback is invoked. // param `ident` --- An optional label which overrides the label parsed from the controller // expression, if any. var instance, match, constructor, identifier; later = later === true; if (ident && isString(ident)) { identifier = ident; } if (isString(expression)) { match = expression.match(CNTRL_REG); if (!match) { throw $controllerMinErr('ctrlfmt', "Badly formed controller string '{0}'. " + "Must match `__name__ as __id__` or `__name__`.", expression); } constructor = match[1], identifier = identifier || match[3]; expression = controllers.hasOwnProperty(constructor) ? controllers[constructor] : getter(locals.$scope, constructor, true) || (globals ? getter($window, constructor, true) : undefined); assertArgFn(expression, constructor, true); } if (later) { // Instantiate controller later: // This machinery is used to create an instance of the object before calling the // controller's constructor itself. // // This allows properties to be added to the controller before the constructor is // invoked. Primarily, this is used for isolate scope bindings in $compile. // // This feature is not intended for use by applications, and is thus not documented // publicly. // Object creation: http://jsperf.com/create-constructor/2 var controllerPrototype = (isArray(expression) ? expression[expression.length - 1] : expression).prototype; instance = Object.create(controllerPrototype || null); if (identifier) { addIdentifier(locals, identifier, instance, constructor || expression.name); } var instantiate; return instantiate = extend(function $controllerInit() { var result = $injector.invoke(expression, instance, locals, constructor); if (result !== instance && (isObject(result) || isFunction(result))) { instance = result; if (identifier) { // If result changed, re-assign controllerAs value to scope. addIdentifier(locals, identifier, instance, constructor || expression.name); } } return instance; }, { instance: instance, identifier: identifier }); } instance = $injector.instantiate(expression, locals, constructor); if (identifier) { addIdentifier(locals, identifier, instance, constructor || expression.name); } return instance; }; function addIdentifier(locals, identifier, instance, name) { if (!(locals && isObject(locals.$scope))) { throw minErr('$controller')('noscp', "Cannot export controller '{0}' as '{1}'! No $scope object provided via `locals`.", name, identifier); } locals.$scope[identifier] = instance; } }]; } /** * @ngdoc service * @name $document * @requires $window * * @description * A {@link angular.element jQuery or jqLite} wrapper for the browser's `window.document` object. * * @example

$document title:

window.document title:

angular.module('documentExample', []) .controller('ExampleController', ['$scope', '$document', function($scope, $document) { $scope.title = $document[0].title; $scope.windowTitle = angular.element(window.document)[0].title; }]); */ function $DocumentProvider() { this.$get = ['$window', function(window) { return jqLite(window.document); }]; } /** * @ngdoc service * @name $exceptionHandler * @requires ng.$log * * @description * Any uncaught exception in angular expressions is delegated to this service. * The default implementation simply delegates to `$log.error` which logs it into * the browser console. * * In unit tests, if `angular-mocks.js` is loaded, this service is overridden by * {@link ngMock.$exceptionHandler mock $exceptionHandler} which aids in testing. * * ## Example: * * The example below will overwrite the default `$exceptionHandler` in order to (a) log uncaught * errors to the backend for later inspection by the developers and (b) to use `$log.warn()` instead * of `$log.error()`. * * ```js * angular. * module('exceptionOverwrite', []). * factory('$exceptionHandler', ['$log', 'logErrorsToBackend', function($log, logErrorsToBackend) { * return function myExceptionHandler(exception, cause) { * logErrorsToBackend(exception, cause); * $log.warn(exception, cause); * }; * }]); * ``` * *
* Note, that code executed in event-listeners (even those registered using jqLite's `on`/`bind` * methods) does not delegate exceptions to the {@link ng.$exceptionHandler $exceptionHandler} * (unless executed during a digest). * * If you wish, you can manually delegate exceptions, e.g. * `try { ... } catch(e) { $exceptionHandler(e); }` * * @param {Error} exception Exception associated with the error. * @param {string=} cause Optional information about the context in which * the error was thrown. * */ function $ExceptionHandlerProvider() { this.$get = ['$log', function($log) { return function(exception, cause) { $log.error.apply($log, arguments); }; }]; } var $$ForceReflowProvider = function() { this.$get = ['$document', function($document) { return function(domNode) { //the line below will force the browser to perform a repaint so //that all the animated elements within the animation frame will //be properly updated and drawn on screen. This is required to //ensure that the preparation animation is properly flushed so that //the active state picks up from there. DO NOT REMOVE THIS LINE. //DO NOT OPTIMIZE THIS LINE. THE MINIFIER WILL REMOVE IT OTHERWISE WHICH //WILL RESULT IN AN UNPREDICTABLE BUG THAT IS VERY HARD TO TRACK DOWN AND //WILL TAKE YEARS AWAY FROM YOUR LIFE. if (domNode) { if (!domNode.nodeType && domNode instanceof jqLite) { domNode = domNode[0]; } } else { domNode = $document[0].body; } return domNode.offsetWidth + 1; }; }]; }; var APPLICATION_JSON = 'application/json'; var CONTENT_TYPE_APPLICATION_JSON = {'Content-Type': APPLICATION_JSON + ';charset=utf-8'}; var JSON_START = /^\[|^\{(?!\{)/; var JSON_ENDS = { '[': /]$/, '{': /}$/ }; var JSON_PROTECTION_PREFIX = /^\)\]\}',?\n/; var $httpMinErr = minErr('$http'); var $httpMinErrLegacyFn = function(method) { return function() { throw $httpMinErr('legacy', 'The method `{0}` on the promise returned from `$http` has been disabled.', method); }; }; function serializeValue(v) { if (isObject(v)) { return isDate(v) ? v.toISOString() : toJson(v); } return v; } function $HttpParamSerializerProvider() { /** * @ngdoc service * @name $httpParamSerializer * @description * * Default {@link $http `$http`} params serializer that converts objects to strings * according to the following rules: * * * `{'foo': 'bar'}` results in `foo=bar` * * `{'foo': Date.now()}` results in `foo=2015-04-01T09%3A50%3A49.262Z` (`toISOString()` and encoded representation of a Date object) * * `{'foo': ['bar', 'baz']}` results in `foo=bar&foo=baz` (repeated key for each array element) * * `{'foo': {'bar':'baz'}}` results in `foo=%7B%22bar%22%3A%22baz%22%7D` (stringified and encoded representation of an object) * * Note that serializer will sort the request parameters alphabetically. * */ this.$get = function() { return function ngParamSerializer(params) { if (!params) return ''; var parts = []; forEachSorted(params, function(value, key) { if (value === null || isUndefined(value)) return; if (isArray(value)) { forEach(value, function(v) { parts.push(encodeUriQuery(key) + '=' + encodeUriQuery(serializeValue(v))); }); } else { parts.push(encodeUriQuery(key) + '=' + encodeUriQuery(serializeValue(value))); } }); return parts.join('&'); }; }; } function $HttpParamSerializerJQLikeProvider() { /** * @ngdoc service * @name $httpParamSerializerJQLike * @description * * Alternative {@link $http `$http`} params serializer that follows * jQuery's [`param()`](http://api.jquery.com/jquery.param/) method logic. * The serializer will also sort the params alphabetically. * * To use it for serializing `$http` request parameters, set it as the `paramSerializer` property: * * ```js * $http({ * url: myUrl, * method: 'GET', * params: myParams, * paramSerializer: '$httpParamSerializerJQLike' * }); * ``` * * It is also possible to set it as the default `paramSerializer` in the * {@link $httpProvider#defaults `$httpProvider`}. * * Additionally, you can inject the serializer and use it explicitly, for example to serialize * form data for submission: * * ```js * .controller(function($http, $httpParamSerializerJQLike) { * //... * * $http({ * url: myUrl, * method: 'POST', * data: $httpParamSerializerJQLike(myData), * headers: { * 'Content-Type': 'application/x-www-form-urlencoded' * } * }); * * }); * ``` * * */ this.$get = function() { return function jQueryLikeParamSerializer(params) { if (!params) return ''; var parts = []; serialize(params, '', true); return parts.join('&'); function serialize(toSerialize, prefix, topLevel) { if (toSerialize === null || isUndefined(toSerialize)) return; if (isArray(toSerialize)) { forEach(toSerialize, function(value, index) { serialize(value, prefix + '[' + (isObject(value) ? index : '') + ']'); }); } else if (isObject(toSerialize) && !isDate(toSerialize)) { forEachSorted(toSerialize, function(value, key) { serialize(value, prefix + (topLevel ? '' : '[') + key + (topLevel ? '' : ']')); }); } else { parts.push(encodeUriQuery(prefix) + '=' + encodeUriQuery(serializeValue(toSerialize))); } } }; }; } function defaultHttpResponseTransform(data, headers) { if (isString(data)) { // Strip json vulnerability protection prefix and trim whitespace var tempData = data.replace(JSON_PROTECTION_PREFIX, '').trim(); if (tempData) { var contentType = headers('Content-Type'); if ((contentType && (contentType.indexOf(APPLICATION_JSON) === 0)) || isJsonLike(tempData)) { data = fromJson(tempData); } } } return data; } function isJsonLike(str) { var jsonStart = str.match(JSON_START); return jsonStart && JSON_ENDS[jsonStart[0]].test(str); } /** * Parse headers into key value object * * @param {string} headers Raw headers as a string * @returns {Object} Parsed headers as key value object */ function parseHeaders(headers) { var parsed = createMap(), i; function fillInParsed(key, val) { if (key) { parsed[key] = parsed[key] ? parsed[key] + ', ' + val : val; } } if (isString(headers)) { forEach(headers.split('\n'), function(line) { i = line.indexOf(':'); fillInParsed(lowercase(trim(line.substr(0, i))), trim(line.substr(i + 1))); }); } else if (isObject(headers)) { forEach(headers, function(headerVal, headerKey) { fillInParsed(lowercase(headerKey), trim(headerVal)); }); } return parsed; } /** * Returns a function that provides access to parsed headers. * * Headers are lazy parsed when first requested. * @see parseHeaders * * @param {(string|Object)} headers Headers to provide access to. * @returns {function(string=)} Returns a getter function which if called with: * * - if called with single an argument returns a single header value or null * - if called with no arguments returns an object containing all headers. */ function headersGetter(headers) { var headersObj; return function(name) { if (!headersObj) headersObj = parseHeaders(headers); if (name) { var value = headersObj[lowercase(name)]; if (value === void 0) { value = null; } return value; } return headersObj; }; } /** * Chain all given functions * * This function is used for both request and response transforming * * @param {*} data Data to transform. * @param {function(string=)} headers HTTP headers getter fn. * @param {number} status HTTP status code of the response. * @param {(Function|Array.)} fns Function or an array of functions. * @returns {*} Transformed data. */ function transformData(data, headers, status, fns) { if (isFunction(fns)) { return fns(data, headers, status); } forEach(fns, function(fn) { data = fn(data, headers, status); }); return data; } function isSuccess(status) { return 200 <= status && status < 300; } /** * @ngdoc provider * @name $httpProvider * @description * Use `$httpProvider` to change the default behavior of the {@link ng.$http $http} service. * */ function $HttpProvider() { /** * @ngdoc property * @name $httpProvider#defaults * @description * * Object containing default values for all {@link ng.$http $http} requests. * * - **`defaults.cache`** - {boolean|Object} - A boolean value or object created with * {@link ng.$cacheFactory `$cacheFactory`} to enable or disable caching of HTTP responses * by default. See {@link $http#caching $http Caching} for more information. * * - **`defaults.xsrfCookieName`** - {string} - Name of cookie containing the XSRF token. * Defaults value is `'XSRF-TOKEN'`. * * - **`defaults.xsrfHeaderName`** - {string} - Name of HTTP header to populate with the * XSRF token. Defaults value is `'X-XSRF-TOKEN'`. * * - **`defaults.headers`** - {Object} - Default headers for all $http requests. * Refer to {@link ng.$http#setting-http-headers $http} for documentation on * setting default headers. * - **`defaults.headers.common`** * - **`defaults.headers.post`** * - **`defaults.headers.put`** * - **`defaults.headers.patch`** * * * - **`defaults.paramSerializer`** - `{string|function(Object):string}` - A function * used to the prepare string representation of request parameters (specified as an object). * If specified as string, it is interpreted as a function registered with the {@link auto.$injector $injector}. * Defaults to {@link ng.$httpParamSerializer $httpParamSerializer}. * **/ var defaults = this.defaults = { // transform incoming response data transformResponse: [defaultHttpResponseTransform], // transform outgoing request data transformRequest: [function(d) { return isObject(d) && !isFile(d) && !isBlob(d) && !isFormData(d) ? toJson(d) : d; }], // default headers headers: { common: { 'Accept': 'application/json, text/plain, */*' }, post: shallowCopy(CONTENT_TYPE_APPLICATION_JSON), put: shallowCopy(CONTENT_TYPE_APPLICATION_JSON), patch: shallowCopy(CONTENT_TYPE_APPLICATION_JSON) }, xsrfCookieName: 'XSRF-TOKEN', xsrfHeaderName: 'X-XSRF-TOKEN', paramSerializer: '$httpParamSerializer' }; var useApplyAsync = false; /** * @ngdoc method * @name $httpProvider#useApplyAsync * @description * * Configure $http service to combine processing of multiple http responses received at around * the same time via {@link ng.$rootScope.Scope#$applyAsync $rootScope.$applyAsync}. This can result in * significant performance improvement for bigger applications that make many HTTP requests * concurrently (common during application bootstrap). * * Defaults to false. If no value is specified, returns the current configured value. * * @param {boolean=} value If true, when requests are loaded, they will schedule a deferred * "apply" on the next tick, giving time for subsequent requests in a roughly ~10ms window * to load and share the same digest cycle. * * @returns {boolean|Object} If a value is specified, returns the $httpProvider for chaining. * otherwise, returns the current configured value. **/ this.useApplyAsync = function(value) { if (isDefined(value)) { useApplyAsync = !!value; return this; } return useApplyAsync; }; var useLegacyPromise = true; /** * @ngdoc method * @name $httpProvider#useLegacyPromiseExtensions * @description * * Configure `$http` service to return promises without the shorthand methods `success` and `error`. * This should be used to make sure that applications work without these methods. * * Defaults to true. If no value is specified, returns the current configured value. * * @param {boolean=} value If true, `$http` will return a promise with the deprecated legacy `success` and `error` methods. * * @returns {boolean|Object} If a value is specified, returns the $httpProvider for chaining. * otherwise, returns the current configured value. **/ this.useLegacyPromiseExtensions = function(value) { if (isDefined(value)) { useLegacyPromise = !!value; return this; } return useLegacyPromise; }; /** * @ngdoc property * @name $httpProvider#interceptors * @description * * Array containing service factories for all synchronous or asynchronous {@link ng.$http $http} * pre-processing of request or postprocessing of responses. * * These service factories are ordered by request, i.e. they are applied in the same order as the * array, on request, but reverse order, on response. * * {@link ng.$http#interceptors Interceptors detailed info} **/ var interceptorFactories = this.interceptors = []; this.$get = ['$httpBackend', '$$cookieReader', '$cacheFactory', '$rootScope', '$q', '$injector', function($httpBackend, $$cookieReader, $cacheFactory, $rootScope, $q, $injector) { var defaultCache = $cacheFactory('$http'); /** * Make sure that default param serializer is exposed as a function */ defaults.paramSerializer = isString(defaults.paramSerializer) ? $injector.get(defaults.paramSerializer) : defaults.paramSerializer; /** * Interceptors stored in reverse order. Inner interceptors before outer interceptors. * The reversal is needed so that we can build up the interception chain around the * server request. */ var reversedInterceptors = []; forEach(interceptorFactories, function(interceptorFactory) { reversedInterceptors.unshift(isString(interceptorFactory) ? $injector.get(interceptorFactory) : $injector.invoke(interceptorFactory)); }); /** * @ngdoc service * @kind function * @name $http * @requires ng.$httpBackend * @requires $cacheFactory * @requires $rootScope * @requires $q * @requires $injector * * @description * The `$http` service is a core Angular service that facilitates communication with the remote * HTTP servers via the browser's [XMLHttpRequest](https://developer.mozilla.org/en/xmlhttprequest) * object or via [JSONP](http://en.wikipedia.org/wiki/JSONP). * * For unit testing applications that use `$http` service, see * {@link ngMock.$httpBackend $httpBackend mock}. * * For a higher level of abstraction, please check out the {@link ngResource.$resource * $resource} service. * * The $http API is based on the {@link ng.$q deferred/promise APIs} exposed by * the $q service. While for simple usage patterns this doesn't matter much, for advanced usage * it is important to familiarize yourself with these APIs and the guarantees they provide. * * * ## General usage * The `$http` service is a function which takes a single argument — a {@link $http#usage configuration object} — * that is used to generate an HTTP request and returns a {@link ng.$q promise}. * * ```js * // Simple GET request example: * $http({ * method: 'GET', * url: '/someUrl' * }).then(function successCallback(response) { * // this callback will be called asynchronously * // when the response is available * }, function errorCallback(response) { * // called asynchronously if an error occurs * // or server returns response with an error status. * }); * ``` * * The response object has these properties: * * - **data** – `{string|Object}` – The response body transformed with the transform * functions. * - **status** – `{number}` – HTTP status code of the response. * - **headers** – `{function([headerName])}` – Header getter function. * - **config** – `{Object}` – The configuration object that was used to generate the request. * - **statusText** – `{string}` – HTTP status text of the response. * * A response status code between 200 and 299 is considered a success status and will result in * the success callback being called. Any response status code outside of that range is * considered an error status and will result in the error callback being called. * Also, status codes less than -1 are normalized to zero. -1 usually means the request was * aborted, e.g. using a `config.timeout`. * Note that if the response is a redirect, XMLHttpRequest will transparently follow it, meaning * that the outcome (success or error) will be determined by the final response status code. * * * ## Shortcut methods * * Shortcut methods are also available. All shortcut methods require passing in the URL, and * request data must be passed in for POST/PUT requests. An optional config can be passed as the * last argument. * * ```js * $http.get('/someUrl', config).then(successCallback, errorCallback); * $http.post('/someUrl', data, config).then(successCallback, errorCallback); * ``` * * Complete list of shortcut methods: * * - {@link ng.$http#get $http.get} * - {@link ng.$http#head $http.head} * - {@link ng.$http#post $http.post} * - {@link ng.$http#put $http.put} * - {@link ng.$http#delete $http.delete} * - {@link ng.$http#jsonp $http.jsonp} * - {@link ng.$http#patch $http.patch} * * * ## Writing Unit Tests that use $http * When unit testing (using {@link ngMock ngMock}), it is necessary to call * {@link ngMock.$httpBackend#flush $httpBackend.flush()} to flush each pending * request using trained responses. * * ``` * $httpBackend.expectGET(...); * $http.get(...); * $httpBackend.flush(); * ``` * * ## Deprecation Notice *
* The `$http` legacy promise methods `success` and `error` have been deprecated. * Use the standard `then` method instead. * If {@link $httpProvider#useLegacyPromiseExtensions `$httpProvider.useLegacyPromiseExtensions`} is set to * `false` then these methods will throw {@link $http:legacy `$http/legacy`} error. *
* * ## Setting HTTP Headers * * The $http service will automatically add certain HTTP headers to all requests. These defaults * can be fully configured by accessing the `$httpProvider.defaults.headers` configuration * object, which currently contains this default configuration: * * - `$httpProvider.defaults.headers.common` (headers that are common for all requests): * - `Accept: application/json, text/plain, * / *` * - `$httpProvider.defaults.headers.post`: (header defaults for POST requests) * - `Content-Type: application/json` * - `$httpProvider.defaults.headers.put` (header defaults for PUT requests) * - `Content-Type: application/json` * * To add or overwrite these defaults, simply add or remove a property from these configuration * objects. To add headers for an HTTP method other than POST or PUT, simply add a new object * with the lowercased HTTP method name as the key, e.g. * `$httpProvider.defaults.headers.get = { 'My-Header' : 'value' }`. * * The defaults can also be set at runtime via the `$http.defaults` object in the same * fashion. For example: * * ``` * module.run(function($http) { * $http.defaults.headers.common.Authorization = 'Basic YmVlcDpib29w'; * }); * ``` * * In addition, you can supply a `headers` property in the config object passed when * calling `$http(config)`, which overrides the defaults without changing them globally. * * To explicitly remove a header automatically added via $httpProvider.defaults.headers on a per request basis, * Use the `headers` property, setting the desired header to `undefined`. For example: * * ```js * var req = { * method: 'POST', * url: 'http://example.com', * headers: { * 'Content-Type': undefined * }, * data: { test: 'test' } * } * * $http(req).then(function(){...}, function(){...}); * ``` * * ## Transforming Requests and Responses * * Both requests and responses can be transformed using transformation functions: `transformRequest` * and `transformResponse`. These properties can be a single function that returns * the transformed value (`function(data, headersGetter, status)`) or an array of such transformation functions, * which allows you to `push` or `unshift` a new transformation function into the transformation chain. * *
* **Note:** Angular does not make a copy of the `data` parameter before it is passed into the `transformRequest` pipeline. * That means changes to the properties of `data` are not local to the transform function (since Javascript passes objects by reference). * For example, when calling `$http.get(url, $scope.myObject)`, modifications to the object's properties in a transformRequest * function will be reflected on the scope and in any templates where the object is data-bound. * To prevent this, transform functions should have no side-effects. * If you need to modify properties, it is recommended to make a copy of the data, or create new object to return. *
* * ### Default Transformations * * The `$httpProvider` provider and `$http` service expose `defaults.transformRequest` and * `defaults.transformResponse` properties. If a request does not provide its own transformations * then these will be applied. * * You can augment or replace the default transformations by modifying these properties by adding to or * replacing the array. * * Angular provides the following default transformations: * * Request transformations (`$httpProvider.defaults.transformRequest` and `$http.defaults.transformRequest`): * * - If the `data` property of the request configuration object contains an object, serialize it * into JSON format. * * Response transformations (`$httpProvider.defaults.transformResponse` and `$http.defaults.transformResponse`): * * - If XSRF prefix is detected, strip it (see Security Considerations section below). * - If JSON response is detected, deserialize it using a JSON parser. * * * ### Overriding the Default Transformations Per Request * * If you wish to override the request/response transformations only for a single request then provide * `transformRequest` and/or `transformResponse` properties on the configuration object passed * into `$http`. * * Note that if you provide these properties on the config object the default transformations will be * overwritten. If you wish to augment the default transformations then you must include them in your * local transformation array. * * The following code demonstrates adding a new response transformation to be run after the default response * transformations have been run. * * ```js * function appendTransform(defaults, transform) { * * // We can't guarantee that the default transformation is an array * defaults = angular.isArray(defaults) ? defaults : [defaults]; * * // Append the new transformation to the defaults * return defaults.concat(transform); * } * * $http({ * url: '...', * method: 'GET', * transformResponse: appendTransform($http.defaults.transformResponse, function(value) { * return doTransform(value); * }) * }); * ``` * * * ## Caching * * {@link ng.$http `$http`} responses are not cached by default. To enable caching, you must * set the config.cache value or the default cache value to TRUE or to a cache object (created * with {@link ng.$cacheFactory `$cacheFactory`}). If defined, the value of config.cache takes * precedence over the default cache value. * * In order to: * * cache all responses - set the default cache value to TRUE or to a cache object * * cache a specific response - set config.cache value to TRUE or to a cache object * * If caching is enabled, but neither the default cache nor config.cache are set to a cache object, * then the default `$cacheFactory("$http")` object is used. * * The default cache value can be set by updating the * {@link ng.$http#defaults `$http.defaults.cache`} property or the * {@link $httpProvider#defaults `$httpProvider.defaults.cache`} property. * * When caching is enabled, {@link ng.$http `$http`} stores the response from the server using * the relevant cache object. The next time the same request is made, the response is returned * from the cache without sending a request to the server. * * Take note that: * * * Only GET and JSONP requests are cached. * * The cache key is the request URL including search parameters; headers are not considered. * * Cached responses are returned asynchronously, in the same way as responses from the server. * * If multiple identical requests are made using the same cache, which is not yet populated, * one request will be made to the server and remaining requests will return the same response. * * A cache-control header on the response does not affect if or how responses are cached. * * * ## Interceptors * * Before you start creating interceptors, be sure to understand the * {@link ng.$q $q and deferred/promise APIs}. * * For purposes of global error handling, authentication, or any kind of synchronous or * asynchronous pre-processing of request or postprocessing of responses, it is desirable to be * able to intercept requests before they are handed to the server and * responses before they are handed over to the application code that * initiated these requests. The interceptors leverage the {@link ng.$q * promise APIs} to fulfill this need for both synchronous and asynchronous pre-processing. * * The interceptors are service factories that are registered with the `$httpProvider` by * adding them to the `$httpProvider.interceptors` array. The factory is called and * injected with dependencies (if specified) and returns the interceptor. * * There are two kinds of interceptors (and two kinds of rejection interceptors): * * * `request`: interceptors get called with a http {@link $http#usage config} object. The function is free to * modify the `config` object or create a new one. The function needs to return the `config` * object directly, or a promise containing the `config` or a new `config` object. * * `requestError`: interceptor gets called when a previous interceptor threw an error or * resolved with a rejection. * * `response`: interceptors get called with http `response` object. The function is free to * modify the `response` object or create a new one. The function needs to return the `response` * object directly, or as a promise containing the `response` or a new `response` object. * * `responseError`: interceptor gets called when a previous interceptor threw an error or * resolved with a rejection. * * * ```js * // register the interceptor as a service * $provide.factory('myHttpInterceptor', function($q, dependency1, dependency2) { * return { * // optional method * 'request': function(config) { * // do something on success * return config; * }, * * // optional method * 'requestError': function(rejection) { * // do something on error * if (canRecover(rejection)) { * return responseOrNewPromise * } * return $q.reject(rejection); * }, * * * * // optional method * 'response': function(response) { * // do something on success * return response; * }, * * // optional method * 'responseError': function(rejection) { * // do something on error * if (canRecover(rejection)) { * return responseOrNewPromise * } * return $q.reject(rejection); * } * }; * }); * * $httpProvider.interceptors.push('myHttpInterceptor'); * * * // alternatively, register the interceptor via an anonymous factory * $httpProvider.interceptors.push(function($q, dependency1, dependency2) { * return { * 'request': function(config) { * // same as above * }, * * 'response': function(response) { * // same as above * } * }; * }); * ``` * * ## Security Considerations * * When designing web applications, consider security threats from: * * - [JSON vulnerability](http://haacked.com/archive/2008/11/20/anatomy-of-a-subtle-json-vulnerability.aspx) * - [XSRF](http://en.wikipedia.org/wiki/Cross-site_request_forgery) * * Both server and the client must cooperate in order to eliminate these threats. Angular comes * pre-configured with strategies that address these issues, but for this to work backend server * cooperation is required. * * ### JSON Vulnerability Protection * * A [JSON vulnerability](http://haacked.com/archive/2008/11/20/anatomy-of-a-subtle-json-vulnerability.aspx) * allows third party website to turn your JSON resource URL into * [JSONP](http://en.wikipedia.org/wiki/JSONP) request under some conditions. To * counter this your server can prefix all JSON requests with following string `")]}',\n"`. * Angular will automatically strip the prefix before processing it as JSON. * * For example if your server needs to return: * ```js * ['one','two'] * ``` * * which is vulnerable to attack, your server can return: * ```js * )]}', * ['one','two'] * ``` * * Angular will strip the prefix, before processing the JSON. * * * ### Cross Site Request Forgery (XSRF) Protection * * [XSRF](http://en.wikipedia.org/wiki/Cross-site_request_forgery) is an attack technique by * which the attacker can trick an authenticated user into unknowingly executing actions on your * website. Angular provides a mechanism to counter XSRF. When performing XHR requests, the * $http service reads a token from a cookie (by default, `XSRF-TOKEN`) and sets it as an HTTP * header (`X-XSRF-TOKEN`). Since only JavaScript that runs on your domain could read the * cookie, your server can be assured that the XHR came from JavaScript running on your domain. * The header will not be set for cross-domain requests. * * To take advantage of this, your server needs to set a token in a JavaScript readable session * cookie called `XSRF-TOKEN` on the first HTTP GET request. On subsequent XHR requests the * server can verify that the cookie matches `X-XSRF-TOKEN` HTTP header, and therefore be sure * that only JavaScript running on your domain could have sent the request. The token must be * unique for each user and must be verifiable by the server (to prevent the JavaScript from * making up its own tokens). We recommend that the token is a digest of your site's * authentication cookie with a [salt](https://en.wikipedia.org/wiki/Salt_(cryptography)) * for added security. * * The name of the headers can be specified using the xsrfHeaderName and xsrfCookieName * properties of either $httpProvider.defaults at config-time, $http.defaults at run-time, * or the per-request config object. * * In order to prevent collisions in environments where multiple Angular apps share the * same domain or subdomain, we recommend that each application uses unique cookie name. * * @param {object} config Object describing the request to be made and how it should be * processed. The object has following properties: * * - **method** – `{string}` – HTTP method (e.g. 'GET', 'POST', etc) * - **url** – `{string}` – Absolute or relative URL of the resource that is being requested. * - **params** – `{Object.}` – Map of strings or objects which will be serialized * with the `paramSerializer` and appended as GET parameters. * - **data** – `{string|Object}` – Data to be sent as the request message data. * - **headers** – `{Object}` – Map of strings or functions which return strings representing * HTTP headers to send to the server. If the return value of a function is null, the * header will not be sent. Functions accept a config object as an argument. * - **eventHandlers** - `{Object}` - Event listeners to be bound to the XMLHttpRequest object. * To bind events to the XMLHttpRequest upload object, use `uploadEventHandlers`. * The handler will be called in the context of a `$apply` block. * - **uploadEventHandlers** - `{Object}` - Event listeners to be bound to the XMLHttpRequest upload * object. To bind events to the XMLHttpRequest object, use `eventHandlers`. * The handler will be called in the context of a `$apply` block. * - **xsrfHeaderName** – `{string}` – Name of HTTP header to populate with the XSRF token. * - **xsrfCookieName** – `{string}` – Name of cookie containing the XSRF token. * - **transformRequest** – * `{function(data, headersGetter)|Array.}` – * transform function or an array of such functions. The transform function takes the http * request body and headers and returns its transformed (typically serialized) version. * See {@link ng.$http#overriding-the-default-transformations-per-request * Overriding the Default Transformations} * - **transformResponse** – * `{function(data, headersGetter, status)|Array.}` – * transform function or an array of such functions. The transform function takes the http * response body, headers and status and returns its transformed (typically deserialized) version. * See {@link ng.$http#overriding-the-default-transformations-per-request * Overriding the Default Transformations} * - **paramSerializer** - `{string|function(Object):string}` - A function used to * prepare the string representation of request parameters (specified as an object). * If specified as string, it is interpreted as function registered with the * {@link $injector $injector}, which means you can create your own serializer * by registering it as a {@link auto.$provide#service service}. * The default serializer is the {@link $httpParamSerializer $httpParamSerializer}; * alternatively, you can use the {@link $httpParamSerializerJQLike $httpParamSerializerJQLike} * - **cache** – `{boolean|Object}` – A boolean value or object created with * {@link ng.$cacheFactory `$cacheFactory`} to enable or disable caching of the HTTP response. * See {@link $http#caching $http Caching} for more information. * - **timeout** – `{number|Promise}` – timeout in milliseconds, or {@link ng.$q promise} * that should abort the request when resolved. * - **withCredentials** - `{boolean}` - whether to set the `withCredentials` flag on the * XHR object. See [requests with credentials](https://developer.mozilla.org/docs/Web/HTTP/Access_control_CORS#Requests_with_credentials) * for more information. * - **responseType** - `{string}` - see * [XMLHttpRequest.responseType](https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest#xmlhttprequest-responsetype). * * @returns {HttpPromise} Returns a {@link ng.$q `Promise}` that will be resolved to a response object * when the request succeeds or fails. * * * @property {Array.} pendingRequests Array of config objects for currently pending * requests. This is primarily meant to be used for debugging purposes. * * * @example 

http status code: {{status}}
http response data: {{data}}
 angular.module('httpExample', []) .controller('FetchController', ['$scope', '$http', '$templateCache', function($scope, $http, $templateCache) { $scope.method = 'GET'; $scope.url = 'http-hello.html'; $scope.fetch = function() { $scope.code = null; $scope.response = null; $http({method: $scope.method, url: $scope.url, cache: $templateCache}). then(function(response) { $scope.status = response.status; $scope.data = response.data; }, function(response) { $scope.data = response.data || "Request failed"; $scope.status = response.status; }); }; $scope.updateModel = function(method, url) { $scope.method = method; $scope.url = url; }; }]); Hello, $http! var status = element(by.binding('status')); var data = element(by.binding('data')); var fetchBtn = element(by.id('fetchbtn')); var sampleGetBtn = element(by.id('samplegetbtn')); var sampleJsonpBtn = element(by.id('samplejsonpbtn')); var invalidJsonpBtn = element(by.id('invalidjsonpbtn')); it('should make an xhr GET request', function() { sampleGetBtn.click(); fetchBtn.click(); expect(status.getText()).toMatch('200'); expect(data.getText()).toMatch(/Hello, \$http!/); }); // Commented out due to flakes. See https://github.com/angular/angular.js/issues/9185 // it('should make a JSONP request to angularjs.org', function() { // sampleJsonpBtn.click(); // fetchBtn.click(); // expect(status.getText()).toMatch('200'); // expect(data.getText()).toMatch(/Super Hero!/); // }); it('should make JSONP request to invalid URL and invoke the error handler', function() { invalidJsonpBtn.click(); fetchBtn.click(); expect(status.getText()).toMatch('0'); expect(data.getText()).toMatch('Request failed'); }); */ function $http(requestConfig) { if (!isObject(requestConfig)) { throw minErr('$http')('badreq', 'Http request configuration must be an object. Received: {0}', requestConfig); } if (!isString(requestConfig.url)) { throw minErr('$http')('badreq', 'Http request configuration url must be a string. Received: {0}', requestConfig.url); } var config = extend({ method: 'get', transformRequest: defaults.transformRequest, transformResponse: defaults.transformResponse, paramSerializer: defaults.paramSerializer }, requestConfig); config.headers = mergeHeaders(requestConfig); config.method = uppercase(config.method); config.paramSerializer = isString(config.paramSerializer) ? $injector.get(config.paramSerializer) : config.paramSerializer; var requestInterceptors = []; var responseInterceptors = []; var promise = $q.when(config); // apply interceptors forEach(reversedInterceptors, function(interceptor) { if (interceptor.request || interceptor.requestError) { requestInterceptors.unshift(interceptor.request, interceptor.requestError); } if (interceptor.response || interceptor.responseError) { responseInterceptors.push(interceptor.response, interceptor.responseError); } }); promise = chainInterceptors(promise, requestInterceptors); promise = promise.then(serverRequest); promise = chainInterceptors(promise, responseInterceptors); if (useLegacyPromise) { promise.success = function(fn) { assertArgFn(fn, 'fn'); promise.then(function(response) { fn(response.data, response.status, response.headers, config); }); return promise; }; promise.error = function(fn) { assertArgFn(fn, 'fn'); promise.then(null, function(response) { fn(response.data, response.status, response.headers, config); }); return promise; }; } else { promise.success = $httpMinErrLegacyFn('success'); promise.error = $httpMinErrLegacyFn('error'); } return promise; function chainInterceptors(promise, interceptors) { for (var i = 0, ii = interceptors.length; i < ii;) { var thenFn = interceptors[i++]; var rejectFn = interceptors[i++]; promise = promise.then(thenFn, rejectFn); } interceptors.length = 0; return promise; } function executeHeaderFns(headers, config) { var headerContent, processedHeaders = {}; forEach(headers, function(headerFn, header) { if (isFunction(headerFn)) { headerContent = headerFn(config); if (headerContent != null) { processedHeaders[header] = headerContent; } } else { processedHeaders[header] = headerFn; } }); return processedHeaders; } function mergeHeaders(config) { var defHeaders = defaults.headers, reqHeaders = extend({}, config.headers), defHeaderName, lowercaseDefHeaderName, reqHeaderName; defHeaders = extend({}, defHeaders.common, defHeaders[lowercase(config.method)]); // using for-in instead of forEach to avoid unnecessary iteration after header has been found defaultHeadersIteration: for (defHeaderName in defHeaders) { lowercaseDefHeaderName = lowercase(defHeaderName); for (reqHeaderName in reqHeaders) { if (lowercase(reqHeaderName) === lowercaseDefHeaderName) { continue defaultHeadersIteration; } } reqHeaders[defHeaderName] = defHeaders[defHeaderName]; } // execute if header value is a function for merged headers return executeHeaderFns(reqHeaders, shallowCopy(config)); } function serverRequest(config) { var headers = config.headers; var reqData = transformData(config.data, headersGetter(headers), undefined, config.transformRequest); // strip content-type if data is undefined if (isUndefined(reqData)) { forEach(headers, function(value, header) { if (lowercase(header) === 'content-type') { delete headers[header]; } }); } if (isUndefined(config.withCredentials) && !isUndefined(defaults.withCredentials)) { config.withCredentials = defaults.withCredentials; } // send request return sendReq(config, reqData).then(transformResponse, transformResponse); } function transformResponse(response) { // make a copy since the response must be cacheable var resp = extend({}, response); resp.data = transformData(response.data, response.headers, response.status, config.transformResponse); return (isSuccess(response.status)) ? resp : $q.reject(resp); } } $http.pendingRequests = []; /** * @ngdoc method * @name $http#get * * @description * Shortcut method to perform `GET` request. * * @param {string} url Relative or absolute URL specifying the destination of the request * @param {Object=} config Optional configuration object * @returns {HttpPromise} Future object */ /** * @ngdoc method * @name $http#delete * * @description * Shortcut method to perform `DELETE` request. * * @param {string} url Relative or absolute URL specifying the destination of the request * @param {Object=} config Optional configuration object * @returns {HttpPromise} Future object */ /** * @ngdoc method * @name $http#head * * @description * Shortcut method to perform `HEAD` request. * * @param {string} url Relative or absolute URL specifying the destination of the request * @param {Object=} config Optional configuration object * @returns {HttpPromise} Future object */ /** * @ngdoc method * @name $http#jsonp * * @description * Shortcut method to perform `JSONP` request. * If you would like to customise where and how the callbacks are stored then try overriding * or decorating the {@link $jsonpCallbacks} service. * * @param {string} url Relative or absolute URL specifying the destination of the request. * The name of the callback should be the string `JSON_CALLBACK`. * @param {Object=} config Optional configuration object * @returns {HttpPromise} Future object */ createShortMethods('get', 'delete', 'head', 'jsonp'); /** * @ngdoc method * @name $http#post * * @description * Shortcut method to perform `POST` request. * * @param {string} url Relative or absolute URL specifying the destination of the request * @param {*} data Request content * @param {Object=} config Optional configuration object * @returns {HttpPromise} Future object */ /** * @ngdoc method * @name $http#put * * @description * Shortcut method to perform `PUT` request. * * @param {string} url Relative or absolute URL specifying the destination of the request * @param {*} data Request content * @param {Object=} config Optional configuration object * @returns {HttpPromise} Future object */ /** * @ngdoc method * @name $http#patch * * @description * Shortcut method to perform `PATCH` request. * * @param {string} url Relative or absolute URL specifying the destination of the request * @param {*} data Request content * @param {Object=} config Optional configuration object * @returns {HttpPromise} Future object */ createShortMethodsWithData('post', 'put', 'patch'); /** * @ngdoc property * @name $http#defaults * * @description * Runtime equivalent of the `$httpProvider.defaults` property. Allows configuration of * default headers, withCredentials as well as request and response transformations. * * See "Setting HTTP Headers" and "Transforming Requests and Responses" sections above. */ $http.defaults = defaults; return $http; function createShortMethods(names) { forEach(arguments, function(name) { $http[name] = function(url, config) { return $http(extend({}, config || {}, { method: name, url: url })); }; }); } function createShortMethodsWithData(name) { forEach(arguments, function(name) { $http[name] = function(url, data, config) { return $http(extend({}, config || {}, { method: name, url: url, data: data })); }; }); } /** * Makes the request. * * !!! ACCESSES CLOSURE VARS: * $httpBackend, defaults, $log, $rootScope, defaultCache, $http.pendingRequests */ function sendReq(config, reqData) { var deferred = $q.defer(), promise = deferred.promise, cache, cachedResp, reqHeaders = config.headers, url = buildUrl(config.url, config.paramSerializer(config.params)); $http.pendingRequests.push(config); promise.then(removePendingReq, removePendingReq); if ((config.cache || defaults.cache) && config.cache !== false && (config.method === 'GET' || config.method === 'JSONP')) { cache = isObject(config.cache) ? config.cache : isObject(defaults.cache) ? defaults.cache : defaultCache; } if (cache) { cachedResp = cache.get(url); if (isDefined(cachedResp)) { if (isPromiseLike(cachedResp)) { // cached request has already been sent, but there is no response yet cachedResp.then(resolvePromiseWithResult, resolvePromiseWithResult); } else { // serving from cache if (isArray(cachedResp)) { resolvePromise(cachedResp[1], cachedResp[0], shallowCopy(cachedResp[2]), cachedResp[3]); } else { resolvePromise(cachedResp, 200, {}, 'OK'); } } } else { // put the promise for the non-transformed response into cache as a placeholder cache.put(url, promise); } } // if we won't have the response in cache, set the xsrf headers and // send the request to the backend if (isUndefined(cachedResp)) { var xsrfValue = urlIsSameOrigin(config.url) ? $$cookieReader()[config.xsrfCookieName || defaults.xsrfCookieName] : undefined; if (xsrfValue) { reqHeaders[(config.xsrfHeaderName || defaults.xsrfHeaderName)] = xsrfValue; } $httpBackend(config.method, url, reqData, done, reqHeaders, config.timeout, config.withCredentials, config.responseType, createApplyHandlers(config.eventHandlers), createApplyHandlers(config.uploadEventHandlers)); } return promise; function createApplyHandlers(eventHandlers) { if (eventHandlers) { var applyHandlers = {}; forEach(eventHandlers, function(eventHandler, key) { applyHandlers[key] = function(event) { if (useApplyAsync) { $rootScope.$applyAsync(callEventHandler); } else if ($rootScope.$$phase) { callEventHandler(); } else { $rootScope.$apply(callEventHandler); } function callEventHandler() { eventHandler(event); } }; }); return applyHandlers; } } /** * Callback registered to $httpBackend(): * - caches the response if desired * - resolves the raw $http promise * - calls $apply */ function done(status, response, headersString, statusText) { if (cache) { if (isSuccess(status)) { cache.put(url, [status, response, parseHeaders(headersString), statusText]); } else { // remove promise from the cache cache.remove(url); } } function resolveHttpPromise() { resolvePromise(response, status, headersString, statusText); } if (useApplyAsync) { $rootScope.$applyAsync(resolveHttpPromise); } else { resolveHttpPromise(); if (!$rootScope.$$phase) $rootScope.$apply(); } } /** * Resolves the raw $http promise. */ function resolvePromise(response, status, headers, statusText) { //status: HTTP response status code, 0, -1 (aborted by timeout / promise) status = status >= -1 ? status : 0; (isSuccess(status) ? deferred.resolve : deferred.reject)({ data: response, status: status, headers: headersGetter(headers), config: config, statusText: statusText }); } function resolvePromiseWithResult(result) { resolvePromise(result.data, result.status, shallowCopy(result.headers()), result.statusText); } function removePendingReq() { var idx = $http.pendingRequests.indexOf(config); if (idx !== -1) $http.pendingRequests.splice(idx, 1); } } function buildUrl(url, serializedParams) { if (serializedParams.length > 0) { url += ((url.indexOf('?') == -1) ? '?' : '&') + serializedParams; } return url; } }]; } /** * @ngdoc service * @name $xhrFactory * * @description * Factory function used to create XMLHttpRequest objects. * * Replace or decorate this service to create your own custom XMLHttpRequest objects. * * ``` * angular.module('myApp', []) * .factory('$xhrFactory', function() { * return function createXhr(method, url) { * return new window.XMLHttpRequest({mozSystem: true}); * }; * }); * ``` * * @param {string} method HTTP method of the request (GET, POST, PUT, ..) * @param {string} url URL of the request. */ function $xhrFactoryProvider() { this.$get = function() { return function createXhr() { return new window.XMLHttpRequest(); }; }; } /** * @ngdoc service * @name $httpBackend * @requires $jsonpCallbacks * @requires $document * @requires $xhrFactory * * @description * HTTP backend used by the {@link ng.$http service} that delegates to * XMLHttpRequest object or JSONP and deals with browser incompatibilities. * * You should never need to use this service directly, instead use the higher-level abstractions: * {@link ng.$http $http} or {@link ngResource.$resource $resource}. * * During testing this implementation is swapped with {@link ngMock.$httpBackend mock * $httpBackend} which can be trained with responses. */ function $HttpBackendProvider() { this.$get = ['$browser', '$jsonpCallbacks', '$document', '$xhrFactory', function($browser, $jsonpCallbacks, $document, $xhrFactory) { return createHttpBackend($browser, $xhrFactory, $browser.defer, $jsonpCallbacks, $document[0]); }]; } function createHttpBackend($browser, createXhr, $browserDefer, callbacks, rawDocument) { // TODO(vojta): fix the signature return function(method, url, post, callback, headers, timeout, withCredentials, responseType, eventHandlers, uploadEventHandlers) { $browser.$$incOutstandingRequestCount(); url = url || $browser.url(); if (lowercase(method) === 'jsonp') { var callbackPath = callbacks.createCallback(url); var jsonpDone = jsonpReq(url, callbackPath, function(status, text) { // jsonpReq only ever sets status to 200 (OK), 404 (ERROR) or -1 (WAITING) var response = (status === 200) && callbacks.getResponse(callbackPath); completeRequest(callback, status, response, "", text); callbacks.removeCallback(callbackPath); }); } else { var xhr = createXhr(method, url); xhr.open(method, url, true); forEach(headers, function(value, key) { if (isDefined(value)) { xhr.setRequestHeader(key, value); } }); xhr.onload = function requestLoaded() { var statusText = xhr.statusText || ''; // responseText is the old-school way of retrieving response (supported by IE9) // response/responseType properties were introduced in XHR Level2 spec (supported by IE10) var response = ('response' in xhr) ? xhr.response : xhr.responseText; // normalize IE9 bug (http://bugs.jquery.com/ticket/1450) var status = xhr.status === 1223 ? 204 : xhr.status; // fix status code when it is 0 (0 status is undocumented). // Occurs when accessing file resources or on Android 4.1 stock browser // while retrieving files from application cache. if (status === 0) { status = response ? 200 : urlResolve(url).protocol == 'file' ? 404 : 0; } completeRequest(callback, status, response, xhr.getAllResponseHeaders(), statusText); }; var requestError = function() { // The response is always empty // See https://xhr.spec.whatwg.org/#request-error-steps and https://fetch.spec.whatwg.org/#concept-network-error completeRequest(callback, -1, null, null, ''); }; xhr.onerror = requestError; xhr.onabort = requestError; forEach(eventHandlers, function(value, key) { xhr.addEventListener(key, value); }); forEach(uploadEventHandlers, function(value, key) { xhr.upload.addEventListener(key, value); }); if (withCredentials) { xhr.withCredentials = true; } if (responseType) { try { xhr.responseType = responseType; } catch (e) { // WebKit added support for the json responseType value on 09/03/2013 // https://bugs.webkit.org/show_bug.cgi?id=73648. Versions of Safari prior to 7 are // known to throw when setting the value "json" as the response type. Other older // browsers implementing the responseType // // The json response type can be ignored if not supported, because JSON payloads are // parsed on the client-side regardless. if (responseType !== 'json') { throw e; } } } xhr.send(isUndefined(post) ? null : post); } if (timeout > 0) { var timeoutId = $browserDefer(timeoutRequest, timeout); } else if (isPromiseLike(timeout)) { timeout.then(timeoutRequest); } function timeoutRequest() { jsonpDone && jsonpDone(); xhr && xhr.abort(); } function completeRequest(callback, status, response, headersString, statusText) { // cancel timeout and subsequent timeout promise resolution if (isDefined(timeoutId)) { $browserDefer.cancel(timeoutId); } jsonpDone = xhr = null; callback(status, response, headersString, statusText); $browser.$$completeOutstandingRequest(noop); } }; function jsonpReq(url, callbackPath, done) { url = url.replace('JSON_CALLBACK', callbackPath); // we can't use jQuery/jqLite here because jQuery does crazy stuff with script elements, e.g.: // - fetches local scripts via XHR and evals them // - adds and immediately removes script elements from the document var script = rawDocument.createElement('script'), callback = null; script.type = "text/javascript"; script.src = url; script.async = true; callback = function(event) { removeEventListenerFn(script, "load", callback); removeEventListenerFn(script, "error", callback); rawDocument.body.removeChild(script); script = null; var status = -1; var text = "unknown"; if (event) { if (event.type === "load" && !callbacks.wasCalled(callbackPath)) { event = { type: "error" }; } text = event.type; status = event.type === "error" ? 404 : 200; } if (done) { done(status, text); } }; addEventListenerFn(script, "load", callback); addEventListenerFn(script, "error", callback); rawDocument.body.appendChild(script); return callback; } } var $interpolateMinErr = angular.$interpolateMinErr = minErr('$interpolate'); $interpolateMinErr.throwNoconcat = function(text) { throw $interpolateMinErr('noconcat', "Error while interpolating: {0}\nStrict Contextual Escaping disallows " + "interpolations that concatenate multiple expressions when a trusted value is " + "required. See http://docs.angularjs.org/api/ng.$sce", text); }; $interpolateMinErr.interr = function(text, err) { return $interpolateMinErr('interr', "Can't interpolate: {0}\n{1}", text, err.toString()); }; /** * @ngdoc provider * @name $interpolateProvider * * @description * * Used for configuring the interpolation markup. Defaults to `{{` and `}}`. * *
* This feature is sometimes used to mix different markup languages, e.g. to wrap an Angular * template within a Python Jinja template (or any other template language). Mixing templating * languages is **very dangerous**. The embedding template language will not safely escape Angular * expressions, so any user-controlled values in the template will cause Cross Site Scripting (XSS) * security bugs! *
* * @example
//demo.label//
it('should interpolate binding with custom symbols', function() { expect(element(by.binding('demo.label')).getText()).toBe('This binding is brought you by // interpolation symbols.'); }); */ function $InterpolateProvider() { var startSymbol = '{{'; var endSymbol = '}}'; /** * @ngdoc method * @name $interpolateProvider#startSymbol * @description * Symbol to denote start of expression in the interpolated string. Defaults to `{{`. * * @param {string=} value new value to set the starting symbol to. * @returns {string|self} Returns the symbol when used as getter and self if used as setter. */ this.startSymbol = function(value) { if (value) { startSymbol = value; return this; } else { return startSymbol; } }; /** * @ngdoc method * @name $interpolateProvider#endSymbol * @description * Symbol to denote the end of expression in the interpolated string. Defaults to `}}`. * * @param {string=} value new value to set the ending symbol to. * @returns {string|self} Returns the symbol when used as getter and self if used as setter. */ this.endSymbol = function(value) { if (value) { endSymbol = value; return this; } else { return endSymbol; } }; this.$get = ['$parse', '$exceptionHandler', '$sce', function($parse, $exceptionHandler, $sce) { var startSymbolLength = startSymbol.length, endSymbolLength = endSymbol.length, escapedStartRegexp = new RegExp(startSymbol.replace(/./g, escape), 'g'), escapedEndRegexp = new RegExp(endSymbol.replace(/./g, escape), 'g'); function escape(ch) { return '\\\\\\' + ch; } function unescapeText(text) { return text.replace(escapedStartRegexp, startSymbol). replace(escapedEndRegexp, endSymbol); } function stringify(value) { if (value == null) { // null || undefined return ''; } switch (typeof value) { case 'string': break; case 'number': value = '' + value; break; default: value = toJson(value); } return value; } //TODO: this is the same as the constantWatchDelegate in parse.js function constantWatchDelegate(scope, listener, objectEquality, constantInterp) { var unwatch; return unwatch = scope.$watch(function constantInterpolateWatch(scope) { unwatch(); return constantInterp(scope); }, listener, objectEquality); } /** * @ngdoc service * @name $interpolate * @kind function * * @requires $parse * @requires $sce * * @description * * Compiles a string with markup into an interpolation function. This service is used by the * HTML {@link ng.$compile $compile} service for data binding. See * {@link ng.$interpolateProvider $interpolateProvider} for configuring the * interpolation markup. * * * ```js * var $interpolate = ...; // injected * var exp = $interpolate('Hello {{name | uppercase}}!'); * expect(exp({name:'Angular'})).toEqual('Hello ANGULAR!'); * ``` * * `$interpolate` takes an optional fourth argument, `allOrNothing`. If `allOrNothing` is * `true`, the interpolation function will return `undefined` unless all embedded expressions * evaluate to a value other than `undefined`. * * ```js * var $interpolate = ...; // injected * var context = {greeting: 'Hello', name: undefined }; * * // default "forgiving" mode * var exp = $interpolate('{{greeting}} {{name}}!'); * expect(exp(context)).toEqual('Hello !'); * * // "allOrNothing" mode * exp = $interpolate('{{greeting}} {{name}}!', false, null, true); * expect(exp(context)).toBeUndefined(); * context.name = 'Angular'; * expect(exp(context)).toEqual('Hello Angular!'); * ``` * * `allOrNothing` is useful for interpolating URLs. `ngSrc` and `ngSrcset` use this behavior. * * #### Escaped Interpolation * $interpolate provides a mechanism for escaping interpolation markers. Start and end markers * can be escaped by preceding each of their characters with a REVERSE SOLIDUS U+005C (backslash). * It will be rendered as a regular start/end marker, and will not be interpreted as an expression * or binding. * * This enables web-servers to prevent script injection attacks and defacing attacks, to some * degree, while also enabling code examples to work without relying on the * {@link ng.directive:ngNonBindable ngNonBindable} directive. * * **For security purposes, it is strongly encouraged that web servers escape user-supplied data, * replacing angle brackets (<, >) with &lt; and &gt; respectively, and replacing all * interpolation start/end markers with their escaped counterparts.** * * Escaped interpolation markers are only replaced with the actual interpolation markers in rendered * output when the $interpolate service processes the text. So, for HTML elements interpolated * by {@link ng.$compile $compile}, or otherwise interpolated with the `mustHaveExpression` parameter * set to `true`, the interpolated text must contain an unescaped interpolation expression. As such, * this is typically useful only when user-data is used in rendering a template from the server, or * when otherwise untrusted data is used by a directive. * * * *
*

{{apptitle}}: \{\{ username = "defaced value"; \}\} *

*

{{username}} attempts to inject code which will deface the * application, but fails to accomplish their task, because the server has correctly * escaped the interpolation start/end markers with REVERSE SOLIDUS U+005C (backslash) * characters.

*

Instead, the result of the attempted script injection is visible, and can be removed * from the database by an administrator.

*
* * * * @knownIssue * It is currently not possible for an interpolated expression to contain the interpolation end * symbol. For example, `{{ '}}' }}` will be incorrectly interpreted as `{{ ' }}` + `' }}`, i.e. * an interpolated expression consisting of a single-quote (`'`) and the `' }}` string. * * @knownIssue * All directives and components must use the standard `{{` `}}` interpolation symbols * in their templates. If you change the application interpolation symbols the {@link $compile} * service will attempt to denormalize the standard symbols to the custom symbols. * The denormalization process is not clever enough to know not to replace instances of the standard * symbols where they would not normally be treated as interpolation symbols. For example in the following * code snippet the closing braces of the literal object will get incorrectly denormalized: * * ``` *
* ``` * * See https://github.com/angular/angular.js/pull/14610#issuecomment-219401099 for more information. * * @param {string} text The text with markup to interpolate. * @param {boolean=} mustHaveExpression if set to true then the interpolation string must have * embedded expression in order to return an interpolation function. Strings with no * embedded expression will return null for the interpolation function. * @param {string=} trustedContext when provided, the returned function passes the interpolated * result through {@link ng.$sce#getTrusted $sce.getTrusted(interpolatedResult, * trustedContext)} before returning it. Refer to the {@link ng.$sce $sce} service that * provides Strict Contextual Escaping for details. * @param {boolean=} allOrNothing if `true`, then the returned function returns undefined * unless all embedded expressions evaluate to a value other than `undefined`. * @returns {function(context)} an interpolation function which is used to compute the * interpolated string. The function has these parameters: * * - `context`: evaluation context for all expressions embedded in the interpolated text */ function $interpolate(text, mustHaveExpression, trustedContext, allOrNothing) { // Provide a quick exit and simplified result function for text with no interpolation if (!text.length || text.indexOf(startSymbol) === -1) { var constantInterp; if (!mustHaveExpression) { var unescapedText = unescapeText(text); constantInterp = valueFn(unescapedText); constantInterp.exp = text; constantInterp.expressions = []; constantInterp.$$watchDelegate = constantWatchDelegate; } return constantInterp; } allOrNothing = !!allOrNothing; var startIndex, endIndex, index = 0, expressions = [], parseFns = [], textLength = text.length, exp, concat = [], expressionPositions = []; while (index < textLength) { if (((startIndex = text.indexOf(startSymbol, index)) != -1) && ((endIndex = text.indexOf(endSymbol, startIndex + startSymbolLength)) != -1)) { if (index !== startIndex) { concat.push(unescapeText(text.substring(index, startIndex))); } exp = text.substring(startIndex + startSymbolLength, endIndex); expressions.push(exp); parseFns.push($parse(exp, parseStringifyInterceptor)); index = endIndex + endSymbolLength; expressionPositions.push(concat.length); concat.push(''); } else { // we did not find an interpolation, so we have to add the remainder to the separators array if (index !== textLength) { concat.push(unescapeText(text.substring(index))); } break; } } // Concatenating expressions makes it hard to reason about whether some combination of // concatenated values are unsafe to use and could easily lead to XSS. By requiring that a // single expression be used for iframe[src], object[src], etc., we ensure that the value // that's used is assigned or constructed by some JS code somewhere that is more testable or // make it obvious that you bound the value to some user controlled value. This helps reduce // the load when auditing for XSS issues. if (trustedContext && concat.length > 1) { $interpolateMinErr.throwNoconcat(text); } if (!mustHaveExpression || expressions.length) { var compute = function(values) { for (var i = 0, ii = expressions.length; i < ii; i++) { if (allOrNothing && isUndefined(values[i])) return; concat[expressionPositions[i]] = values[i]; } return concat.join(''); }; var getValue = function(value) { return trustedContext ? $sce.getTrusted(trustedContext, value) : $sce.valueOf(value); }; return extend(function interpolationFn(context) { var i = 0; var ii = expressions.length; var values = new Array(ii); try { for (; i < ii; i++) { values[i] = parseFns[i](context); } return compute(values); } catch (err) { $exceptionHandler($interpolateMinErr.interr(text, err)); } }, { // all of these properties are undocumented for now exp: text, //just for compatibility with regular watchers created via $watch expressions: expressions, $$watchDelegate: function(scope, listener) { var lastValue; return scope.$watchGroup(parseFns, function interpolateFnWatcher(values, oldValues) { var currValue = compute(values); if (isFunction(listener)) { listener.call(this, currValue, values !== oldValues ? lastValue : currValue, scope); } lastValue = currValue; }); } }); } function parseStringifyInterceptor(value) { try { value = getValue(value); return allOrNothing && !isDefined(value) ? value : stringify(value); } catch (err) { $exceptionHandler($interpolateMinErr.interr(text, err)); } } } /** * @ngdoc method * @name $interpolate#startSymbol * @description * Symbol to denote the start of expression in the interpolated string. Defaults to `{{`. * * Use {@link ng.$interpolateProvider#startSymbol `$interpolateProvider.startSymbol`} to change * the symbol. * * @returns {string} start symbol. */ $interpolate.startSymbol = function() { return startSymbol; }; /** * @ngdoc method * @name $interpolate#endSymbol * @description * Symbol to denote the end of expression in the interpolated string. Defaults to `}}`. * * Use {@link ng.$interpolateProvider#endSymbol `$interpolateProvider.endSymbol`} to change * the symbol. * * @returns {string} end symbol. */ $interpolate.endSymbol = function() { return endSymbol; }; return $interpolate; }]; } function $IntervalProvider() { this.$get = ['$rootScope', '$window', '$q', '$$q', '$browser', function($rootScope, $window, $q, $$q, $browser) { var intervals = {}; /** * @ngdoc service * @name $interval * * @description * Angular's wrapper for `window.setInterval`. The `fn` function is executed every `delay` * milliseconds. * * The return value of registering an interval function is a promise. This promise will be * notified upon each tick of the interval, and will be resolved after `count` iterations, or * run indefinitely if `count` is not defined. The value of the notification will be the * number of iterations that have run. * To cancel an interval, call `$interval.cancel(promise)`. * * In tests you can use {@link ngMock.$interval#flush `$interval.flush(millis)`} to * move forward by `millis` milliseconds and trigger any functions scheduled to run in that * time. * *
* **Note**: Intervals created by this service must be explicitly destroyed when you are finished * with them. In particular they are not automatically destroyed when a controller's scope or a * directive's element are destroyed. * You should take this into consideration and make sure to always cancel the interval at the * appropriate moment. See the example below for more details on how and when to do this. *
* * @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. * * @example * * * * *
*
*
* Current time is: *
* Blood 1 : {{blood_1}} * Blood 2 : {{blood_2}} * * * *
*
* * * */ function interval(fn, delay, count, invokeApply) { var hasParams = arguments.length > 4, args = hasParams ? sliceArgs(arguments, 4) : [], setInterval = $window.setInterval, clearInterval = $window.clearInterval, iteration = 0, skipApply = (isDefined(invokeApply) && !invokeApply), deferred = (skipApply ? $$q : $q).defer(), promise = deferred.promise; count = isDefined(count) ? count : 0; promise.$$intervalId = setInterval(function tick() { if (skipApply) { $browser.defer(callback); } else { $rootScope.$evalAsync(callback); } deferred.notify(iteration++); if (count > 0 && iteration >= count) { deferred.resolve(iteration); clearInterval(promise.$$intervalId); delete intervals[promise.$$intervalId]; } if (!skipApply) $rootScope.$apply(); }, delay); intervals[promise.$$intervalId] = deferred; return promise; function callback() { if (!hasParams) { fn(iteration); } else { fn.apply(null, args); } } } /** * @ngdoc method * @name $interval#cancel * * @description * Cancels a task associated with the `promise`. * * @param {Promise=} promise returned by the `$interval` function. * @returns {boolean} Returns `true` if the task was successfully canceled. */ interval.cancel = function(promise) { if (promise && promise.$$intervalId in intervals) { intervals[promise.$$intervalId].reject('canceled'); $window.clearInterval(promise.$$intervalId); delete intervals[promise.$$intervalId]; return true; } return false; }; return interval; }]; } /** * @ngdoc service * @name $jsonpCallbacks * @requires $window * @description * This service handles the lifecycle of callbacks to handle JSONP requests. * Override this service if you wish to customise where the callbacks are stored and * how they vary compared to the requested url. */ var $jsonpCallbacksProvider = function() { this.$get = ['$window', function($window) { var callbacks = $window.angular.callbacks; var callbackMap = {}; function createCallback(callbackId) { var callback = function(data) { callback.data = data; callback.called = true; }; callback.id = callbackId; return callback; } return { /** * @ngdoc method * @name $jsonpCallbacks#createCallback * @param {string} url the url of the JSONP request * @returns {string} the callback path to send to the server as part of the JSONP request * @description * {@link $httpBackend} calls this method to create a callback and get hold of the path to the callback * to pass to the server, which will be used to call the callback with its payload in the JSONP response. */ createCallback: function(url) { var callbackId = '_' + (callbacks.$$counter++).toString(36); var callbackPath = 'angular.callbacks.' + callbackId; var callback = createCallback(callbackId); callbackMap[callbackPath] = callbacks[callbackId] = callback; return callbackPath; }, /** * @ngdoc method * @name $jsonpCallbacks#wasCalled * @param {string} callbackPath the path to the callback that was sent in the JSONP request * @returns {boolean} whether the callback has been called, as a result of the JSONP response * @description * {@link $httpBackend} calls this method to find out whether the JSONP response actually called the * callback that was passed in the request. */ wasCalled: function(callbackPath) { return callbackMap[callbackPath].called; }, /** * @ngdoc method * @name $jsonpCallbacks#getResponse * @param {string} callbackPath the path to the callback that was sent in the JSONP request * @returns {*} the data received from the response via the registered callback * @description * {@link $httpBackend} calls this method to get hold of the data that was provided to the callback * in the JSONP response. */ getResponse: function(callbackPath) { return callbackMap[callbackPath].data; }, /** * @ngdoc method * @name $jsonpCallbacks#removeCallback * @param {string} callbackPath the path to the callback that was sent in the JSONP request * @description * {@link $httpBackend} calls this method to remove the callback after the JSONP request has * completed or timed-out. */ removeCallback: function(callbackPath) { var callback = callbackMap[callbackPath]; delete callbacks[callback.id]; delete callbackMap[callbackPath]; } }; }]; }; /** * @ngdoc service * @name $locale * * @description * $locale service provides localization rules for various Angular components. As of right now the * only public api is: * * * `id` – `{string}` – locale id formatted as `languageId-countryId` (e.g. `en-us`) */ var PATH_MATCH = /^([^\?#]*)(\?([^#]*))?(#(.*))?$/, DEFAULT_PORTS = {'http': 80, 'https': 443, 'ftp': 21}; var $locationMinErr = minErr('$location'); /** * Encode path using encodeUriSegment, ignoring forward slashes * * @param {string} path Path to encode * @returns {string} */ function encodePath(path) { var segments = path.split('/'), i = segments.length; while (i--) { segments[i] = encodeUriSegment(segments[i]); } return segments.join('/'); } function parseAbsoluteUrl(absoluteUrl, locationObj) { var parsedUrl = urlResolve(absoluteUrl); locationObj.$$protocol = parsedUrl.protocol; locationObj.$$host = parsedUrl.hostname; locationObj.$$port = toInt(parsedUrl.port) || DEFAULT_PORTS[parsedUrl.protocol] || null; } function parseAppUrl(relativeUrl, locationObj) { var prefixed = (relativeUrl.charAt(0) !== '/'); if (prefixed) { relativeUrl = '/' + relativeUrl; } var match = urlResolve(relativeUrl); locationObj.$$path = decodeURIComponent(prefixed && match.pathname.charAt(0) === '/' ? match.pathname.substring(1) : match.pathname); locationObj.$$search = parseKeyValue(match.search); locationObj.$$hash = decodeURIComponent(match.hash); // make sure path starts with '/'; if (locationObj.$$path && locationObj.$$path.charAt(0) != '/') { locationObj.$$path = '/' + locationObj.$$path; } } function startsWith(haystack, needle) { return haystack.lastIndexOf(needle, 0) === 0; } /** * * @param {string} base * @param {string} url * @returns {string} returns text from `url` after `base` or `undefined` if it does not begin with * the expected string. */ function stripBaseUrl(base, url) { if (startsWith(url, base)) { return url.substr(base.length); } } function stripHash(url) { var index = url.indexOf('#'); return index == -1 ? url : url.substr(0, index); } function trimEmptyHash(url) { return url.replace(/(#.+)|#$/, '$1'); } function stripFile(url) { return url.substr(0, stripHash(url).lastIndexOf('/') + 1); } /* return the server only (scheme://host:port) */ function serverBase(url) { return url.substring(0, url.indexOf('/', url.indexOf('//') + 2)); } /** * LocationHtml5Url represents an url * This object is exposed as $location service when HTML5 mode is enabled and supported * * @constructor * @param {string} appBase application base URL * @param {string} appBaseNoFile application base URL stripped of any filename * @param {string} basePrefix url path prefix */ function LocationHtml5Url(appBase, appBaseNoFile, basePrefix) { this.$$html5 = true; basePrefix = basePrefix || ''; parseAbsoluteUrl(appBase, this); /** * Parse given html5 (regular) url string into properties * @param {string} url HTML5 url * @private */ this.$$parse = function(url) { var pathUrl = stripBaseUrl(appBaseNoFile, url); if (!isString(pathUrl)) { throw $locationMinErr('ipthprfx', 'Invalid url "{0}", missing path prefix "{1}".', url, appBaseNoFile); } parseAppUrl(pathUrl, this); if (!this.$$path) { this.$$path = '/'; } this.$$compose(); }; /** * Compose url and update `absUrl` property * @private */ this.$$compose = function() { var search = toKeyValue(this.$$search), hash = this.$$hash ? '#' + encodeUriSegment(this.$$hash) : ''; this.$$url = encodePath(this.$$path) + (search ? '?' + search : '') + hash; this.$$absUrl = appBaseNoFile + this.$$url.substr(1); // first char is always '/' }; this.$$parseLinkUrl = function(url, relHref) { if (relHref && relHref[0] === '#') { // special case for links to hash fragments: // keep the old url and only replace the hash fragment this.hash(relHref.slice(1)); return true; } var appUrl, prevAppUrl; var rewrittenUrl; if (isDefined(appUrl = stripBaseUrl(appBase, url))) { prevAppUrl = appUrl; if (isDefined(appUrl = stripBaseUrl(basePrefix, appUrl))) { rewrittenUrl = appBaseNoFile + (stripBaseUrl('/', appUrl) || appUrl); } else { rewrittenUrl = appBase + prevAppUrl; } } else if (isDefined(appUrl = stripBaseUrl(appBaseNoFile, url))) { rewrittenUrl = appBaseNoFile + appUrl; } else if (appBaseNoFile == url + '/') { rewrittenUrl = appBaseNoFile; } if (rewrittenUrl) { this.$$parse(rewrittenUrl); } return !!rewrittenUrl; }; } /** * LocationHashbangUrl represents url * This object is exposed as $location service when developer doesn't opt into html5 mode. * It also serves as the base class for html5 mode fallback on legacy browsers. * * @constructor * @param {string} appBase application base URL * @param {string} appBaseNoFile application base URL stripped of any filename * @param {string} hashPrefix hashbang prefix */ function LocationHashbangUrl(appBase, appBaseNoFile, hashPrefix) { parseAbsoluteUrl(appBase, this); /** * Parse given hashbang url into properties * @param {string} url Hashbang url * @private */ this.$$parse = function(url) { var withoutBaseUrl = stripBaseUrl(appBase, url) || stripBaseUrl(appBaseNoFile, url); var withoutHashUrl; if (!isUndefined(withoutBaseUrl) && withoutBaseUrl.charAt(0) === '#') { // The rest of the url starts with a hash so we have // got either a hashbang path or a plain hash fragment withoutHashUrl = stripBaseUrl(hashPrefix, withoutBaseUrl); if (isUndefined(withoutHashUrl)) { // There was no hashbang prefix so we just have a hash fragment withoutHashUrl = withoutBaseUrl; } } else { // There was no hashbang path nor hash fragment: // If we are in HTML5 mode we use what is left as the path; // Otherwise we ignore what is left if (this.$$html5) { withoutHashUrl = withoutBaseUrl; } else { withoutHashUrl = ''; if (isUndefined(withoutBaseUrl)) { appBase = url; this.replace(); } } } parseAppUrl(withoutHashUrl, this); this.$$path = removeWindowsDriveName(this.$$path, withoutHashUrl, appBase); this.$$compose(); /* * In Windows, on an anchor node on documents loaded from * the filesystem, the browser will return a pathname * prefixed with the drive name ('/C:/path') when a * pathname without a drive is set: * * a.setAttribute('href', '/foo') * * a.pathname === '/C:/foo' //true * * Inside of Angular, we're always using pathnames that * do not include drive names for routing. */ function removeWindowsDriveName(path, url, base) { /* Matches paths for file protocol on windows, such as /C:/foo/bar, and captures only /foo/bar. */ var windowsFilePathExp = /^\/[A-Z]:(\/.*)/; var firstPathSegmentMatch; //Get the relative path from the input URL. if (startsWith(url, base)) { url = url.replace(base, ''); } // The input URL intentionally contains a first path segment that ends with a colon. if (windowsFilePathExp.exec(url)) { return path; } firstPathSegmentMatch = windowsFilePathExp.exec(path); return firstPathSegmentMatch ? firstPathSegmentMatch[1] : path; } }; /** * Compose hashbang url and update `absUrl` property * @private */ this.$$compose = function() { var search = toKeyValue(this.$$search), hash = this.$$hash ? '#' + encodeUriSegment(this.$$hash) : ''; this.$$url = encodePath(this.$$path) + (search ? '?' + search : '') + hash; this.$$absUrl = appBase + (this.$$url ? hashPrefix + this.$$url : ''); }; this.$$parseLinkUrl = function(url, relHref) { if (stripHash(appBase) == stripHash(url)) { this.$$parse(url); return true; } return false; }; } /** * LocationHashbangUrl represents url * This object is exposed as $location service when html5 history api is enabled but the browser * does not support it. * * @constructor * @param {string} appBase application base URL * @param {string} appBaseNoFile application base URL stripped of any filename * @param {string} hashPrefix hashbang prefix */ function LocationHashbangInHtml5Url(appBase, appBaseNoFile, hashPrefix) { this.$$html5 = true; LocationHashbangUrl.apply(this, arguments); this.$$parseLinkUrl = function(url, relHref) { if (relHref && relHref[0] === '#') { // special case for links to hash fragments: // keep the old url and only replace the hash fragment this.hash(relHref.slice(1)); return true; } var rewrittenUrl; var appUrl; if (appBase == stripHash(url)) { rewrittenUrl = url; } else if ((appUrl = stripBaseUrl(appBaseNoFile, url))) { rewrittenUrl = appBase + hashPrefix + appUrl; } else if (appBaseNoFile === url + '/') { rewrittenUrl = appBaseNoFile; } if (rewrittenUrl) { this.$$parse(rewrittenUrl); } return !!rewrittenUrl; }; this.$$compose = function() { var search = toKeyValue(this.$$search), hash = this.$$hash ? '#' + encodeUriSegment(this.$$hash) : ''; this.$$url = encodePath(this.$$path) + (search ? '?' + search : '') + hash; // include hashPrefix in $$absUrl when $$url is empty so IE9 does not reload page because of removal of '#' this.$$absUrl = appBase + hashPrefix + this.$$url; }; } var locationPrototype = { /** * Ensure absolute url is initialized. * @private */ $$absUrl:'', /** * Are we in html5 mode? * @private */ $$html5: false, /** * Has any change been replacing? * @private */ $$replace: false, /** * @ngdoc method * @name $location#absUrl * * @description * This method is getter only. * * Return full url representation with all segments encoded according to rules specified in * [RFC 3986](http://www.ietf.org/rfc/rfc3986.txt). * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo * var absUrl = $location.absUrl(); * // => "http://example.com/#/some/path?foo=bar&baz=xoxo" * ``` * * @return {string} full url */ absUrl: locationGetter('$$absUrl'), /** * @ngdoc method * @name $location#url * * @description * This method is getter / setter. * * Return url (e.g. `/path?a=b#hash`) when called without any parameter. * * Change path, search and hash, when called with parameter and return `$location`. * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo * var url = $location.url(); * // => "/some/path?foo=bar&baz=xoxo" * ``` * * @param {string=} url New url without base prefix (e.g. `/path?a=b#hash`) * @return {string} url */ url: function(url) { if (isUndefined(url)) { return this.$$url; } var match = PATH_MATCH.exec(url); if (match[1] || url === '') this.path(decodeURIComponent(match[1])); if (match[2] || match[1] || url === '') this.search(match[3] || ''); this.hash(match[5] || ''); return this; }, /** * @ngdoc method * @name $location#protocol * * @description * This method is getter only. * * Return protocol of current url. * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo * var protocol = $location.protocol(); * // => "http" * ``` * * @return {string} protocol of current url */ protocol: locationGetter('$$protocol'), /** * @ngdoc method * @name $location#host * * @description * This method is getter only. * * Return host of current url. * * Note: compared to the non-angular version `location.host` which returns `hostname:port`, this returns the `hostname` portion only. * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo * var host = $location.host(); * // => "example.com" * * // given url http://user:password@example.com:8080/#/some/path?foo=bar&baz=xoxo * host = $location.host(); * // => "example.com" * host = location.host; * // => "example.com:8080" * ``` * * @return {string} host of current url. */ host: locationGetter('$$host'), /** * @ngdoc method * @name $location#port * * @description * This method is getter only. * * Return port of current url. * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo * var port = $location.port(); * // => 80 * ``` * * @return {Number} port */ port: locationGetter('$$port'), /** * @ngdoc method * @name $location#path * * @description * This method is getter / setter. * * Return path of current url when called without any parameter. * * Change path when called with parameter and return `$location`. * * Note: Path should always begin with forward slash (/), this method will add the forward slash * if it is missing. * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo * var path = $location.path(); * // => "/some/path" * ``` * * @param {(string|number)=} path New path * @return {(string|object)} path if called with no parameters, or `$location` if called with a parameter */ path: locationGetterSetter('$$path', function(path) { path = path !== null ? path.toString() : ''; return path.charAt(0) == '/' ? path : '/' + path; }), /** * @ngdoc method * @name $location#search * * @description * This method is getter / setter. * * Return search part (as object) of current url when called without any parameter. * * Change search part when called with parameter and return `$location`. * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo * var searchObject = $location.search(); * // => {foo: 'bar', baz: 'xoxo'} * * // set foo to 'yipee' * $location.search('foo', 'yipee'); * // $location.search() => {foo: 'yipee', baz: 'xoxo'} * ``` * * @param {string|Object.|Object.>} search New search params - string or * hash object. * * When called with a single argument the method acts as a setter, setting the `search` component * of `$location` to the specified value. * * If the argument is a hash object containing an array of values, these values will be encoded * as duplicate search parameters in the url. * * @param {(string|Number|Array|boolean)=} paramValue If `search` is a string or number, then `paramValue` * will override only a single search property. * * If `paramValue` is an array, it will override the property of the `search` component of * `$location` specified via the first argument. * * If `paramValue` is `null`, the property specified via the first argument will be deleted. * * If `paramValue` is `true`, the property specified via the first argument will be added with no * value nor trailing equal sign. * * @return {Object} If called with no arguments returns the parsed `search` object. If called with * one or more arguments returns `$location` object itself. */ search: function(search, paramValue) { switch (arguments.length) { case 0: return this.$$search; case 1: if (isString(search) || isNumber(search)) { search = search.toString(); this.$$search = parseKeyValue(search); } else if (isObject(search)) { search = copy(search, {}); // remove object undefined or null properties forEach(search, function(value, key) { if (value == null) delete search[key]; }); this.$$search = search; } else { throw $locationMinErr('isrcharg', 'The first argument of the `$location#search()` call must be a string or an object.'); } break; default: if (isUndefined(paramValue) || paramValue === null) { delete this.$$search[search]; } else { this.$$search[search] = paramValue; } } this.$$compose(); return this; }, /** * @ngdoc method * @name $location#hash * * @description * This method is getter / setter. * * Returns the hash fragment when called without any parameters. * * Changes the hash fragment when called with a parameter and returns `$location`. * * * ```js * // given url http://example.com/#/some/path?foo=bar&baz=xoxo#hashValue * var hash = $location.hash(); * // => "hashValue" * ``` * * @param {(string|number)=} hash New hash fragment * @return {string} hash */ hash: locationGetterSetter('$$hash', function(hash) { return hash !== null ? hash.toString() : ''; }), /** * @ngdoc method * @name $location#replace * * @description * If called, all changes to $location during the current `$digest` will replace the current history * record, instead of adding a new one. */ replace: function() { this.$$replace = true; return this; } }; forEach([LocationHashbangInHtml5Url, LocationHashbangUrl, LocationHtml5Url], function(Location) { Location.prototype = Object.create(locationPrototype); /** * @ngdoc method * @name $location#state * * @description * This method is getter / setter. * * Return the history state object when called without any parameter. * * Change the history state object when called with one parameter and return `$location`. * The state object is later passed to `pushState` or `replaceState`. * * NOTE: This method is supported only in HTML5 mode and only in browsers supporting * the HTML5 History API (i.e. methods `pushState` and `replaceState`). If you need to support * older browsers (like IE9 or Android < 4.0), don't use this method. * * @param {object=} state State object for pushState or replaceState * @return {object} state */ Location.prototype.state = function(state) { if (!arguments.length) { return this.$$state; } if (Location !== LocationHtml5Url || !this.$$html5) { throw $locationMinErr('nostate', 'History API state support is available only ' + 'in HTML5 mode and only in browsers supporting HTML5 History API'); } // The user might modify `stateObject` after invoking `$location.state(stateObject)` // but we're changing the $$state reference to $browser.state() during the $digest // so the modification window is narrow. this.$$state = isUndefined(state) ? null : state; return this; }; }); function locationGetter(property) { return function() { return this[property]; }; } function locationGetterSetter(property, preprocess) { return function(value) { if (isUndefined(value)) { return this[property]; } this[property] = preprocess(value); this.$$compose(); return this; }; } /** * @ngdoc service * @name $location * * @requires $rootElement * * @description * The $location service parses the URL in the browser address bar (based on the * [window.location](https://developer.mozilla.org/en/window.location)) and makes the URL * available to your application. Changes to the URL in the address bar are reflected into * $location service and changes to $location are reflected into the browser address bar. * * **The $location service:** * * - Exposes the current URL in the browser address bar, so you can * - Watch and observe the URL. * - Change the URL. * - Synchronizes the URL with the browser when the user * - Changes the address bar. * - Clicks the back or forward button (or clicks a History link). * - Clicks on a link. * - Represents the URL object as a set of methods (protocol, host, port, path, search, hash). * * For more information see {@link guide/$location Developer Guide: Using $location} */ /** * @ngdoc provider * @name $locationProvider * @description * Use the `$locationProvider` to configure how the application deep linking paths are stored. */ function $LocationProvider() { var hashPrefix = '', html5Mode = { enabled: false, requireBase: true, rewriteLinks: true }; /** * @ngdoc method * @name $locationProvider#hashPrefix * @description * @param {string=} prefix Prefix for hash part (containing path and search) * @returns {*} current value if used as getter or itself (chaining) if used as setter */ this.hashPrefix = function(prefix) { if (isDefined(prefix)) { hashPrefix = prefix; return this; } else { return hashPrefix; } }; /** * @ngdoc method * @name $locationProvider#html5Mode * @description * @param {(boolean|Object)=} mode If boolean, sets `html5Mode.enabled` to value. * If object, sets `enabled`, `requireBase` and `rewriteLinks` to respective values. Supported * properties: * - **enabled** – `{boolean}` – (default: false) If true, will rely on `history.pushState` to * change urls where supported. Will fall back to hash-prefixed paths in browsers that do not * support `pushState`. * - **requireBase** - `{boolean}` - (default: `true`) When html5Mode is enabled, specifies * whether or not a tag is required to be present. If `enabled` and `requireBase` are * true, and a base tag is not present, an error will be thrown when `$location` is injected. * See the {@link guide/$location $location guide for more information} * - **rewriteLinks** - `{boolean}` - (default: `true`) When html5Mode is enabled, * enables/disables url rewriting for relative links. * * @returns {Object} html5Mode object if used as getter or itself (chaining) if used as setter */ this.html5Mode = function(mode) { if (isBoolean(mode)) { html5Mode.enabled = mode; return this; } else if (isObject(mode)) { if (isBoolean(mode.enabled)) { html5Mode.enabled = mode.enabled; } if (isBoolean(mode.requireBase)) { html5Mode.requireBase = mode.requireBase; } if (isBoolean(mode.rewriteLinks)) { html5Mode.rewriteLinks = mode.rewriteLinks; } return this; } else { return html5Mode; } }; /** * @ngdoc event * @name $location#$locationChangeStart * @eventType broadcast on root scope * @description * Broadcasted before a URL will change. * * This change can be prevented by calling * `preventDefault` method of the event. See {@link ng.$rootScope.Scope#$on} for more * details about event object. Upon successful change * {@link ng.$location#$locationChangeSuccess $locationChangeSuccess} is fired. * * The `newState` and `oldState` parameters may be defined only in HTML5 mode and when * the browser supports the HTML5 History API. * * @param {Object} angularEvent Synthetic event object. * @param {string} newUrl New URL * @param {string=} oldUrl URL that was before it was changed. * @param {string=} newState New history state object * @param {string=} oldState History state object that was before it was changed. */ /** * @ngdoc event * @name $location#$locationChangeSuccess * @eventType broadcast on root scope * @description * Broadcasted after a URL was changed. * * The `newState` and `oldState` parameters may be defined only in HTML5 mode and when * the browser supports the HTML5 History API. * * @param {Object} angularEvent Synthetic event object. * @param {string} newUrl New URL * @param {string=} oldUrl URL that was before it was changed. * @param {string=} newState New history state object * @param {string=} oldState History state object that was before it was changed. */ this.$get = ['$rootScope', '$browser', '$sniffer', '$rootElement', '$window', function($rootScope, $browser, $sniffer, $rootElement, $window) { var $location, LocationMode, baseHref = $browser.baseHref(), // if base[href] is undefined, it defaults to '' initialUrl = $browser.url(), appBase; if (html5Mode.enabled) { if (!baseHref && html5Mode.requireBase) { throw $locationMinErr('nobase', "$location in HTML5 mode requires a tag to be present!"); } appBase = serverBase(initialUrl) + (baseHref || '/'); LocationMode = $sniffer.history ? LocationHtml5Url : LocationHashbangInHtml5Url; } else { appBase = stripHash(initialUrl); LocationMode = LocationHashbangUrl; } var appBaseNoFile = stripFile(appBase); $location = new LocationMode(appBase, appBaseNoFile, '#' + hashPrefix); $location.$$parseLinkUrl(initialUrl, initialUrl); $location.$$state = $browser.state(); var IGNORE_URI_REGEXP = /^\s*(javascript|mailto):/i; function setBrowserUrlWithFallback(url, replace, state) { var oldUrl = $location.url(); var oldState = $location.$$state; try { $browser.url(url, replace, state); // Make sure $location.state() returns referentially identical (not just deeply equal) // state object; this makes possible quick checking if the state changed in the digest // loop. Checking deep equality would be too expensive. $location.$$state = $browser.state(); } catch (e) { // Restore old values if pushState fails $location.url(oldUrl); $location.$$state = oldState; throw e; } } $rootElement.on('click', function(event) { // TODO(vojta): rewrite link when opening in new tab/window (in legacy browser) // currently we open nice url link and redirect then if (!html5Mode.rewriteLinks || event.ctrlKey || event.metaKey || event.shiftKey || event.which == 2 || event.button == 2) return; var elm = jqLite(event.target); // traverse the DOM up to find first A tag while (nodeName_(elm[0]) !== 'a') { // ignore rewriting if no A tag (reached root element, or no parent - removed from document) if (elm[0] === $rootElement[0] || !(elm = elm.parent())[0]) return; } var absHref = elm.prop('href'); // get the actual href attribute - see // http://msdn.microsoft.com/en-us/library/ie/dd347148(v=vs.85).aspx var relHref = elm.attr('href') || elm.attr('xlink:href'); if (isObject(absHref) && absHref.toString() === '[object SVGAnimatedString]') { // SVGAnimatedString.animVal should be identical to SVGAnimatedString.baseVal, unless during // an animation. absHref = urlResolve(absHref.animVal).href; } // Ignore when url is started with javascript: or mailto: if (IGNORE_URI_REGEXP.test(absHref)) return; if (absHref && !elm.attr('target') && !event.isDefaultPrevented()) { if ($location.$$parseLinkUrl(absHref, relHref)) { // We do a preventDefault for all urls that are part of the angular application, // in html5mode and also without, so that we are able to abort navigation without // getting double entries in the location history. event.preventDefault(); // update location manually if ($location.absUrl() != $browser.url()) { $rootScope.$apply(); // hack to work around FF6 bug 684208 when scenario runner clicks on links $window.angular['ff-684208-preventDefault'] = true; } } } }); // rewrite hashbang url <> html5 url if (trimEmptyHash($location.absUrl()) != trimEmptyHash(initialUrl)) { $browser.url($location.absUrl(), true); } var initializing = true; // update $location when $browser url changes $browser.onUrlChange(function(newUrl, newState) { if (isUndefined(stripBaseUrl(appBaseNoFile, newUrl))) { // If we are navigating outside of the app then force a reload $window.location.href = newUrl; return; } $rootScope.$evalAsync(function() { var oldUrl = $location.absUrl(); var oldState = $location.$$state; var defaultPrevented; newUrl = trimEmptyHash(newUrl); $location.$$parse(newUrl); $location.$$state = newState; defaultPrevented = $rootScope.$broadcast('$locationChangeStart', newUrl, oldUrl, newState, oldState).defaultPrevented; // if the location was changed by a `$locationChangeStart` handler then stop // processing this location change if ($location.absUrl() !== newUrl) return; if (defaultPrevented) { $location.$$parse(oldUrl); $location.$$state = oldState; setBrowserUrlWithFallback(oldUrl, false, oldState); } else { initializing = false; afterLocationChange(oldUrl, oldState); } }); if (!$rootScope.$$phase) $rootScope.$digest(); }); // update browser $rootScope.$watch(function $locationWatch() { var oldUrl = trimEmptyHash($browser.url()); var newUrl = trimEmptyHash($location.absUrl()); var oldState = $browser.state(); var currentReplace = $location.$$replace; var urlOrStateChanged = oldUrl !== newUrl || ($location.$$html5 && $sniffer.history && oldState !== $location.$$state); if (initializing || urlOrStateChanged) { initializing = false; $rootScope.$evalAsync(function() { var newUrl = $location.absUrl(); var defaultPrevented = $rootScope.$broadcast('$locationChangeStart', newUrl, oldUrl, $location.$$state, oldState).defaultPrevented; // if the location was changed by a `$locationChangeStart` handler then stop // processing this location change if ($location.absUrl() !== newUrl) return; if (defaultPrevented) { $location.$$parse(oldUrl); $location.$$state = oldState; } else { if (urlOrStateChanged) { setBrowserUrlWithFallback(newUrl, currentReplace, oldState === $location.$$state ? null : $location.$$state); } afterLocationChange(oldUrl, oldState); } }); } $location.$$replace = false; // we don't need to return anything because $evalAsync will make the digest loop dirty when // there is a change }); return $location; function afterLocationChange(oldUrl, oldState) { $rootScope.$broadcast('$locationChangeSuccess', $location.absUrl(), oldUrl, $location.$$state, oldState); } }]; } /** * @ngdoc service * @name $log * @requires $window * * @description * Simple service for logging. Default implementation safely writes the message * into the browser's console (if present). * * The main purpose of this service is to simplify debugging and troubleshooting. * * The default is to log `debug` messages. You can use * {@link ng.$logProvider ng.$logProvider#debugEnabled} to change this. * * @example angular.module('logExample', []) .controller('LogController', ['$scope', '$log', function($scope, $log) { $scope.$log = $log; $scope.message = 'Hello World!'; }]);

Reload this page with open console, enter text and hit the log button...

 */ /** * @ngdoc provider * @name $logProvider * @description * Use the `$logProvider` to configure how the application logs messages */ function $LogProvider() { var debug = true, self = this; /** * @ngdoc method * @name $logProvider#debugEnabled * @description * @param {boolean=} flag enable or disable debug level messages * @returns {*} current value if used as getter or itself (chaining) if used as setter */ this.debugEnabled = function(flag) { if (isDefined(flag)) { debug = flag; return this; } else { return debug; } }; this.$get = ['$window', function($window) { return { /** * @ngdoc method * @name $log#log * * @description * Write a log message */ log: consoleLog('log'), /** * @ngdoc method * @name $log#info * * @description * Write an information message */ info: consoleLog('info'), /** * @ngdoc method * @name $log#warn * * @description * Write a warning message */ warn: consoleLog('warn'), /** * @ngdoc method * @name $log#error * * @description * Write an error message */ error: consoleLog('error'), /** * @ngdoc method * @name $log#debug * * @description * Write a debug message */ debug: (function() { var fn = consoleLog('debug'); return function() { if (debug) { fn.apply(self, arguments); } }; }()) }; function formatError(arg) { if (arg instanceof Error) { if (arg.stack) { arg = (arg.message && arg.stack.indexOf(arg.message) === -1) ? 'Error: ' + arg.message + '\n' + arg.stack : arg.stack; } else if (arg.sourceURL) { arg = arg.message + '\n' + arg.sourceURL + ':' + arg.line; } } return arg; } function consoleLog(type) { var console = $window.console || {}, logFn = console[type] || console.log || noop, hasApply = false; // Note: reading logFn.apply throws an error in IE11 in IE8 document mode. // The reason behind this is that console.log has type "object" in IE8... try { hasApply = !!logFn.apply; } catch (e) {} if (hasApply) { return function() { var args = []; forEach(arguments, function(arg) { args.push(formatError(arg)); }); return logFn.apply(console, args); }; } // we are IE which either doesn't have window.console => this is noop and we do nothing, // or we are IE where console.log doesn't have apply so we log at least first 2 args return function(arg1, arg2) { logFn(arg1, arg2 == null ? '' : arg2); }; } }]; } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Any commits to this file should be reviewed with security in mind. * * Changes to this file can potentially create security vulnerabilities. * * An approval from 2 Core members with history of modifying * * this file is required. * * * * Does the change somehow allow for arbitrary javascript to be executed? * * Or allows for someone to change the prototype of built-in objects? * * Or gives undesired access to variables likes document or window? * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ var $parseMinErr = minErr('$parse'); // Sandboxing Angular Expressions // ------------------------------ // Angular expressions are generally considered safe because these expressions only have direct // access to `$scope` and locals. However, one can obtain the ability to execute arbitrary JS code by // obtaining a reference to native JS functions such as the Function constructor. // // As an example, consider the following Angular expression: // // {}.toString.constructor('alert("evil JS code")') // // This sandboxing technique is not perfect and doesn't aim to be. The goal is to prevent exploits // against the expression language, but not to prevent exploits that were enabled by exposing // sensitive JavaScript or browser APIs on Scope. Exposing such objects on a Scope is never a good // practice and therefore we are not even trying to protect against interaction with an object // explicitly exposed in this way. // // In general, it is not possible to access a Window object from an angular expression unless a // window or some DOM object that has a reference to window is published onto a Scope. // Similarly we prevent invocations of function known to be dangerous, as well as assignments to // native objects. // // See https://docs.angularjs.org/guide/security function ensureSafeMemberName(name, fullExpression) { if (name === "__defineGetter__" || name === "__defineSetter__" || name === "__lookupGetter__" || name === "__lookupSetter__" || name === "__proto__") { throw $parseMinErr('isecfld', 'Attempting to access a disallowed field in Angular expressions! ' + 'Expression: {0}', fullExpression); } return name; } function getStringValue(name) { // Property names must be strings. This means that non-string objects cannot be used // as keys in an object. Any non-string object, including a number, is typecasted // into a string via the toString method. // -- MDN, https://developer.mozilla.org/en/docs/Web/JavaScript/Reference/Operators/Property_accessors#Property_names // // So, to ensure that we are checking the same `name` that JavaScript would use, we cast it // to a string. It's not always possible. If `name` is an object and its `toString` method is // 'broken' (doesn't return a string, isn't a function, etc.), an error will be thrown: // // TypeError: Cannot convert object to primitive value // // For performance reasons, we don't catch this error here and allow it to propagate up the call // stack. Note that you'll get the same error in JavaScript if you try to access a property using // such a 'broken' object as a key. return name + ''; } function ensureSafeObject(obj, fullExpression) { // nifty check if obj is Function that is fast and works across iframes and other contexts if (obj) { if (obj.constructor === obj) { throw $parseMinErr('isecfn', 'Referencing Function in Angular expressions is disallowed! Expression: {0}', fullExpression); } else if (// isWindow(obj) obj.window === obj) { throw $parseMinErr('isecwindow', 'Referencing the Window in Angular expressions is disallowed! Expression: {0}', fullExpression); } else if (// isElement(obj) obj.children && (obj.nodeName || (obj.prop && obj.attr && obj.find))) { throw $parseMinErr('isecdom', 'Referencing DOM nodes in Angular expressions is disallowed! Expression: {0}', fullExpression); } else if (// block Object so that we can't get hold of dangerous Object.* methods obj === Object) { throw $parseMinErr('isecobj', 'Referencing Object in Angular expressions is disallowed! Expression: {0}', fullExpression); } } return obj; } var CALL = Function.prototype.call; var APPLY = Function.prototype.apply; var BIND = Function.prototype.bind; function ensureSafeFunction(obj, fullExpression) { if (obj) { if (obj.constructor === obj) { throw $parseMinErr('isecfn', 'Referencing Function in Angular expressions is disallowed! Expression: {0}', fullExpression); } else if (obj === CALL || obj === APPLY || obj === BIND) { throw $parseMinErr('isecff', 'Referencing call, apply or bind in Angular expressions is disallowed! Expression: {0}', fullExpression); } } } function ensureSafeAssignContext(obj, fullExpression) { if (obj) { if (obj === (0).constructor || obj === (false).constructor || obj === ''.constructor || obj === {}.constructor || obj === [].constructor || obj === Function.constructor) { throw $parseMinErr('isecaf', 'Assigning to a constructor is disallowed! Expression: {0}', fullExpression); } } } var OPERATORS = createMap(); forEach('+ - * / % === !== == != < > <= >= && || ! = |'.split(' '), function(operator) { OPERATORS[operator] = true; }); var ESCAPE = {"n":"\n", "f":"\f", "r":"\r", "t":"\t", "v":"\v", "'":"'", '"':'"'}; ///////////////////////////////////////// /** * @constructor */ var Lexer = function(options) { this.options = options; }; Lexer.prototype = { constructor: Lexer, lex: function(text) { this.text = text; this.index = 0; this.tokens = []; while (this.index < this.text.length) { var ch = this.text.charAt(this.index); if (ch === '"' || ch === "'") { this.readString(ch); } else if (this.isNumber(ch) || ch === '.' && this.isNumber(this.peek())) { this.readNumber(); } else if (this.isIdentifierStart(this.peekMultichar())) { this.readIdent(); } else if (this.is(ch, '(){}[].,;:?')) { this.tokens.push({index: this.index, text: ch}); this.index++; } else if (this.isWhitespace(ch)) { this.index++; } else { var ch2 = ch + this.peek(); var ch3 = ch2 + this.peek(2); var op1 = OPERATORS[ch]; var op2 = OPERATORS[ch2]; var op3 = OPERATORS[ch3]; if (op1 || op2 || op3) { var token = op3 ? ch3 : (op2 ? ch2 : ch); this.tokens.push({index: this.index, text: token, operator: true}); this.index += token.length; } else { this.throwError('Unexpected next character ', this.index, this.index + 1); } } } return this.tokens; }, is: function(ch, chars) { return chars.indexOf(ch) !== -1; }, peek: function(i) { var num = i || 1; return (this.index + num < this.text.length) ? this.text.charAt(this.index + num) : false; }, isNumber: function(ch) { return ('0' <= ch && ch <= '9') && typeof ch === "string"; }, isWhitespace: function(ch) { // IE treats non-breaking space as \u00A0 return (ch === ' ' || ch === '\r' || ch === '\t' || ch === '\n' || ch === '\v' || ch === '\u00A0'); }, isIdentifierStart: function(ch) { return this.options.isIdentifierStart ? this.options.isIdentifierStart(ch, this.codePointAt(ch)) : this.isValidIdentifierStart(ch); }, isValidIdentifierStart: function(ch) { return ('a' <= ch && ch <= 'z' || 'A' <= ch && ch <= 'Z' || '_' === ch || ch === '$'); }, isIdentifierContinue: function(ch) { return this.options.isIdentifierContinue ? this.options.isIdentifierContinue(ch, this.codePointAt(ch)) : this.isValidIdentifierContinue(ch); }, isValidIdentifierContinue: function(ch, cp) { return this.isValidIdentifierStart(ch, cp) || this.isNumber(ch); }, codePointAt: function(ch) { if (ch.length === 1) return ch.charCodeAt(0); /*jshint bitwise: false*/ return (ch.charCodeAt(0) << 10) + ch.charCodeAt(1) - 0x35FDC00; /*jshint bitwise: true*/ }, peekMultichar: function() { var ch = this.text.charAt(this.index); var peek = this.peek(); if (!peek) { return ch; } var cp1 = ch.charCodeAt(0); var cp2 = peek.charCodeAt(0); if (cp1 >= 0xD800 && cp1 <= 0xDBFF && cp2 >= 0xDC00 && cp2 <= 0xDFFF) { return ch + peek; } return ch; }, isExpOperator: function(ch) { return (ch === '-' || ch === '+' || this.isNumber(ch)); }, throwError: function(error, start, end) { end = end || this.index; var colStr = (isDefined(start) ? 's ' + start + '-' + this.index + ' [' + this.text.substring(start, end) + ']' : ' ' + end); throw $parseMinErr('lexerr', 'Lexer Error: {0} at column{1} in expression [{2}].', error, colStr, this.text); }, readNumber: function() { var number = ''; var start = this.index; while (this.index < this.text.length) { var ch = lowercase(this.text.charAt(this.index)); if (ch == '.' || this.isNumber(ch)) { number += ch; } else { var peekCh = this.peek(); if (ch == 'e' && this.isExpOperator(peekCh)) { number += ch; } else if (this.isExpOperator(ch) && peekCh && this.isNumber(peekCh) && number.charAt(number.length - 1) == 'e') { number += ch; } else if (this.isExpOperator(ch) && (!peekCh || !this.isNumber(peekCh)) && number.charAt(number.length - 1) == 'e') { this.throwError('Invalid exponent'); } else { break; } } this.index++; } this.tokens.push({ index: start, text: number, constant: true, value: Number(number) }); }, readIdent: function() { var start = this.index; this.index += this.peekMultichar().length; while (this.index < this.text.length) { var ch = this.peekMultichar(); if (!this.isIdentifierContinue(ch)) { break; } this.index += ch.length; } this.tokens.push({ index: start, text: this.text.slice(start, this.index), identifier: true }); }, readString: function(quote) { var start = this.index; this.index++; var string = ''; var rawString = quote; var escape = false; while (this.index < this.text.length) { var ch = this.text.charAt(this.index); rawString += ch; if (escape) { if (ch === 'u') { var hex = this.text.substring(this.index + 1, this.index + 5); if (!hex.match(/[\da-f]{4}/i)) { this.throwError('Invalid unicode escape [\\u' + hex + ']'); } this.index += 4; string += String.fromCharCode(parseInt(hex, 16)); } else { var rep = ESCAPE[ch]; string = string + (rep || ch); } escape = false; } else if (ch === '\\') { escape = true; } else if (ch === quote) { this.index++; this.tokens.push({ index: start, text: rawString, constant: true, value: string }); return; } else { string += ch; } this.index++; } this.throwError('Unterminated quote', start); } }; var AST = function(lexer, options) { this.lexer = lexer; this.options = options; }; AST.Program = 'Program'; AST.ExpressionStatement = 'ExpressionStatement'; AST.AssignmentExpression = 'AssignmentExpression'; AST.ConditionalExpression = 'ConditionalExpression'; AST.LogicalExpression = 'LogicalExpression'; AST.BinaryExpression = 'BinaryExpression'; AST.UnaryExpression = 'UnaryExpression'; AST.CallExpression = 'CallExpression'; AST.MemberExpression = 'MemberExpression'; AST.Identifier = 'Identifier'; AST.Literal = 'Literal'; AST.ArrayExpression = 'ArrayExpression'; AST.Property = 'Property'; AST.ObjectExpression = 'ObjectExpression'; AST.ThisExpression = 'ThisExpression'; AST.LocalsExpression = 'LocalsExpression'; // Internal use only AST.NGValueParameter = 'NGValueParameter'; AST.prototype = { ast: function(text) { this.text = text; this.tokens = this.lexer.lex(text); var value = this.program(); if (this.tokens.length !== 0) { this.throwError('is an unexpected token', this.tokens[0]); } return value; }, program: function() { var body = []; while (true) { if (this.tokens.length > 0 && !this.peek('}', ')', ';', ']')) body.push(this.expressionStatement()); if (!this.expect(';')) { return { type: AST.Program, body: body}; } } }, expressionStatement: function() { return { type: AST.ExpressionStatement, expression: this.filterChain() }; }, filterChain: function() { var left = this.expression(); var token; while ((token = this.expect('|'))) { left = this.filter(left); } return left; }, expression: function() { return this.assignment(); }, assignment: function() { var result = this.ternary(); if (this.expect('=')) { result = { type: AST.AssignmentExpression, left: result, right: this.assignment(), operator: '='}; } return result; }, ternary: function() { var test = this.logicalOR(); var alternate; var consequent; if (this.expect('?')) { alternate = this.expression(); if (this.consume(':')) { consequent = this.expression(); return { type: AST.ConditionalExpression, test: test, alternate: alternate, consequent: consequent}; } } return test; }, logicalOR: function() { var left = this.logicalAND(); while (this.expect('||')) { left = { type: AST.LogicalExpression, operator: '||', left: left, right: this.logicalAND() }; } return left; }, logicalAND: function() { var left = this.equality(); while (this.expect('&&')) { left = { type: AST.LogicalExpression, operator: '&&', left: left, right: this.equality()}; } return left; }, equality: function() { var left = this.relational(); var token; while ((token = this.expect('==','!=','===','!=='))) { left = { type: AST.BinaryExpression, operator: token.text, left: left, right: this.relational() }; } return left; }, relational: function() { var left = this.additive(); var token; while ((token = this.expect('<', '>', '<=', '>='))) { left = { type: AST.BinaryExpression, operator: token.text, left: left, right: this.additive() }; } return left; }, additive: function() { var left = this.multiplicative(); var token; while ((token = this.expect('+','-'))) { left = { type: AST.BinaryExpression, operator: token.text, left: left, right: this.multiplicative() }; } return left; }, multiplicative: function() { var left = this.unary(); var token; while ((token = this.expect('*','/','%'))) { left = { type: AST.BinaryExpression, operator: token.text, left: left, right: this.unary() }; } return left; }, unary: function() { var token; if ((token = this.expect('+', '-', '!'))) { return { type: AST.UnaryExpression, operator: token.text, prefix: true, argument: this.unary() }; } else { return this.primary(); } }, primary: function() { var primary; if (this.expect('(')) { primary = this.filterChain(); this.consume(')'); } else if (this.expect('[')) { primary = this.arrayDeclaration(); } else if (this.expect('{')) { primary = this.object(); } else if (this.selfReferential.hasOwnProperty(this.peek().text)) { primary = copy(this.selfReferential[this.consume().text]); } else if (this.options.literals.hasOwnProperty(this.peek().text)) { primary = { type: AST.Literal, value: this.options.literals[this.consume().text]}; } else if (this.peek().identifier) { primary = this.identifier(); } else if (this.peek().constant) { primary = this.constant(); } else { this.throwError('not a primary expression', this.peek()); } var next; while ((next = this.expect('(', '[', '.'))) { if (next.text === '(') { primary = {type: AST.CallExpression, callee: primary, arguments: this.parseArguments() }; this.consume(')'); } else if (next.text === '[') { primary = { type: AST.MemberExpression, object: primary, property: this.expression(), computed: true }; this.consume(']'); } else if (next.text === '.') { primary = { type: AST.MemberExpression, object: primary, property: this.identifier(), computed: false }; } else { this.throwError('IMPOSSIBLE'); } } return primary; }, filter: function(baseExpression) { var args = [baseExpression]; var result = {type: AST.CallExpression, callee: this.identifier(), arguments: args, filter: true}; while (this.expect(':')) { args.push(this.expression()); } return result; }, parseArguments: function() { var args = []; if (this.peekToken().text !== ')') { do { args.push(this.filterChain()); } while (this.expect(',')); } return args; }, identifier: function() { var token = this.consume(); if (!token.identifier) { this.throwError('is not a valid identifier', token); } return { type: AST.Identifier, name: token.text }; }, constant: function() { // TODO check that it is a constant return { type: AST.Literal, value: this.consume().value }; }, arrayDeclaration: function() { var elements = []; if (this.peekToken().text !== ']') { do { if (this.peek(']')) { // Support trailing commas per ES5.1. break; } elements.push(this.expression()); } while (this.expect(',')); } this.consume(']'); return { type: AST.ArrayExpression, elements: elements }; }, object: function() { var properties = [], property; if (this.peekToken().text !== '}') { do { if (this.peek('}')) { // Support trailing commas per ES5.1. break; } property = {type: AST.Property, kind: 'init'}; if (this.peek().constant) { property.key = this.constant(); property.computed = false; this.consume(':'); property.value = this.expression(); } else if (this.peek().identifier) { property.key = this.identifier(); property.computed = false; if (this.peek(':')) { this.consume(':'); property.value = this.expression(); } else { property.value = property.key; } } else if (this.peek('[')) { this.consume('['); property.key = this.expression(); this.consume(']'); property.computed = true; this.consume(':'); property.value = this.expression(); } else { this.throwError("invalid key", this.peek()); } properties.push(property); } while (this.expect(',')); } this.consume('}'); return {type: AST.ObjectExpression, properties: properties }; }, throwError: function(msg, token) { throw $parseMinErr('syntax', 'Syntax Error: Token \'{0}\' {1} at column {2} of the expression [{3}] starting at [{4}].', token.text, msg, (token.index + 1), this.text, this.text.substring(token.index)); }, consume: function(e1) { if (this.tokens.length === 0) { throw $parseMinErr('ueoe', 'Unexpected end of expression: {0}', this.text); } var token = this.expect(e1); if (!token) { this.throwError('is unexpected, expecting [' + e1 + ']', this.peek()); } return token; }, peekToken: function() { if (this.tokens.length === 0) { throw $parseMinErr('ueoe', 'Unexpected end of expression: {0}', this.text); } return this.tokens[0]; }, peek: function(e1, e2, e3, e4) { return this.peekAhead(0, e1, e2, e3, e4); }, peekAhead: function(i, e1, e2, e3, e4) { if (this.tokens.length > i) { var token = this.tokens[i]; var t = token.text; if (t === e1 || t === e2 || t === e3 || t === e4 || (!e1 && !e2 && !e3 && !e4)) { return token; } } return false; }, expect: function(e1, e2, e3, e4) { var token = this.peek(e1, e2, e3, e4); if (token) { this.tokens.shift(); return token; } return false; }, selfReferential: { 'this': {type: AST.ThisExpression }, '$locals': {type: AST.LocalsExpression } } }; function ifDefined(v, d) { return typeof v !== 'undefined' ? v : d; } function plusFn(l, r) { if (typeof l === 'undefined') return r; if (typeof r === 'undefined') return l; return l + r; } function isStateless($filter, filterName) { var fn = $filter(filterName); return !fn.$stateful; } function findConstantAndWatchExpressions(ast, $filter) { var allConstants; var argsToWatch; switch (ast.type) { case AST.Program: allConstants = true; forEach(ast.body, function(expr) { findConstantAndWatchExpressions(expr.expression, $filter); allConstants = allConstants && expr.expression.constant; }); ast.constant = allConstants; break; case AST.Literal: ast.constant = true; ast.toWatch = []; break; case AST.UnaryExpression: findConstantAndWatchExpressions(ast.argument, $filter); ast.constant = ast.argument.constant; ast.toWatch = ast.argument.toWatch; break; case AST.BinaryExpression: findConstantAndWatchExpressions(ast.left, $filter); findConstantAndWatchExpressions(ast.right, $filter); ast.constant = ast.left.constant && ast.right.constant; ast.toWatch = ast.left.toWatch.concat(ast.right.toWatch); break; case AST.LogicalExpression: findConstantAndWatchExpressions(ast.left, $filter); findConstantAndWatchExpressions(ast.right, $filter); ast.constant = ast.left.constant && ast.right.constant; ast.toWatch = ast.constant ? [] : [ast]; break; case AST.ConditionalExpression: findConstantAndWatchExpressions(ast.test, $filter); findConstantAndWatchExpressions(ast.alternate, $filter); findConstantAndWatchExpressions(ast.consequent, $filter); ast.constant = ast.test.constant && ast.alternate.constant && ast.consequent.constant; ast.toWatch = ast.constant ? [] : [ast]; break; case AST.Identifier: ast.constant = false; ast.toWatch = [ast]; break; case AST.MemberExpression: findConstantAndWatchExpressions(ast.object, $filter); if (ast.computed) { findConstantAndWatchExpressions(ast.property, $filter); } ast.constant = ast.object.constant && (!ast.computed || ast.property.constant); ast.toWatch = [ast]; break; case AST.CallExpression: allConstants = ast.filter ? isStateless($filter, ast.callee.name) : false; argsToWatch = []; forEach(ast.arguments, function(expr) { findConstantAndWatchExpressions(expr, $filter); allConstants = allConstants && expr.constant; if (!expr.constant) { argsToWatch.push.apply(argsToWatch, expr.toWatch); } }); ast.constant = allConstants; ast.toWatch = ast.filter && isStateless($filter, ast.callee.name) ? argsToWatch : [ast]; break; case AST.AssignmentExpression: findConstantAndWatchExpressions(ast.left, $filter); findConstantAndWatchExpressions(ast.right, $filter); ast.constant = ast.left.constant && ast.right.constant; ast.toWatch = [ast]; break; case AST.ArrayExpression: allConstants = true; argsToWatch = []; forEach(ast.elements, function(expr) { findConstantAndWatchExpressions(expr, $filter); allConstants = allConstants && expr.constant; if (!expr.constant) { argsToWatch.push.apply(argsToWatch, expr.toWatch); } }); ast.constant = allConstants; ast.toWatch = argsToWatch; break; case AST.ObjectExpression: allConstants = true; argsToWatch = []; forEach(ast.properties, function(property) { findConstantAndWatchExpressions(property.value, $filter); allConstants = allConstants && property.value.constant && !property.computed; if (!property.value.constant) { argsToWatch.push.apply(argsToWatch, property.value.toWatch); } }); ast.constant = allConstants; ast.toWatch = argsToWatch; break; case AST.ThisExpression: ast.constant = false; ast.toWatch = []; break; case AST.LocalsExpression: ast.constant = false; ast.toWatch = []; break; } } function getInputs(body) { if (body.length != 1) return; var lastExpression = body[0].expression; var candidate = lastExpression.toWatch; if (candidate.length !== 1) return candidate; return candidate[0] !== lastExpression ? candidate : undefined; } function isAssignable(ast) { return ast.type === AST.Identifier || ast.type === AST.MemberExpression; } function assignableAST(ast) { if (ast.body.length === 1 && isAssignable(ast.body[0].expression)) { return {type: AST.AssignmentExpression, left: ast.body[0].expression, right: {type: AST.NGValueParameter}, operator: '='}; } } function isLiteral(ast) { return ast.body.length === 0 || ast.body.length === 1 && ( ast.body[0].expression.type === AST.Literal || ast.body[0].expression.type === AST.ArrayExpression || ast.body[0].expression.type === AST.ObjectExpression); } function isConstant(ast) { return ast.constant; } function ASTCompiler(astBuilder, $filter) { this.astBuilder = astBuilder; this.$filter = $filter; } ASTCompiler.prototype = { compile: function(expression, expensiveChecks) { var self = this; var ast = this.astBuilder.ast(expression); this.state = { nextId: 0, filters: {}, expensiveChecks: expensiveChecks, fn: {vars: [], body: [], own: {}}, assign: {vars: [], body: [], own: {}}, inputs: [] }; findConstantAndWatchExpressions(ast, self.$filter); var extra = ''; var assignable; this.stage = 'assign'; if ((assignable = assignableAST(ast))) { this.state.computing = 'assign'; var result = this.nextId(); this.recurse(assignable, result); this.return_(result); extra = 'fn.assign=' + this.generateFunction('assign', 's,v,l'); } var toWatch = getInputs(ast.body); self.stage = 'inputs'; forEach(toWatch, function(watch, key) { var fnKey = 'fn' + key; self.state[fnKey] = {vars: [], body: [], own: {}}; self.state.computing = fnKey; var intoId = self.nextId(); self.recurse(watch, intoId); self.return_(intoId); self.state.inputs.push(fnKey); watch.watchId = key; }); this.state.computing = 'fn'; this.stage = 'main'; this.recurse(ast); var fnString = // The build and minification steps remove the string "use strict" from the code, but this is done using a regex. // This is a workaround for this until we do a better job at only removing the prefix only when we should. '"' + this.USE + ' ' + this.STRICT + '";\n' + this.filterPrefix() + 'var fn=' + this.generateFunction('fn', 's,l,a,i') + extra + this.watchFns() + 'return fn;'; /* jshint -W054 */ var fn = (new Function('$filter', 'ensureSafeMemberName', 'ensureSafeObject', 'ensureSafeFunction', 'getStringValue', 'ensureSafeAssignContext', 'ifDefined', 'plus', 'text', fnString))( this.$filter, ensureSafeMemberName, ensureSafeObject, ensureSafeFunction, getStringValue, ensureSafeAssignContext, ifDefined, plusFn, expression); /* jshint +W054 */ this.state = this.stage = undefined; fn.literal = isLiteral(ast); fn.constant = isConstant(ast); return fn; }, USE: 'use', STRICT: 'strict', watchFns: function() { var result = []; var fns = this.state.inputs; var self = this; forEach(fns, function(name) { result.push('var ' + name + '=' + self.generateFunction(name, 's')); }); if (fns.length) { result.push('fn.inputs=[' + fns.join(',') + '];'); } return result.join(''); }, generateFunction: function(name, params) { return 'function(' + params + '){' + this.varsPrefix(name) + this.body(name) + '};'; }, filterPrefix: function() { var parts = []; var self = this; forEach(this.state.filters, function(id, filter) { parts.push(id + '=$filter(' + self.escape(filter) + ')'); }); if (parts.length) return 'var ' + parts.join(',') + ';'; return ''; }, varsPrefix: function(section) { return this.state[section].vars.length ? 'var ' + this.state[section].vars.join(',') + ';' : ''; }, body: function(section) { return this.state[section].body.join(''); }, recurse: function(ast, intoId, nameId, recursionFn, create, skipWatchIdCheck) { var left, right, self = this, args, expression, computed; recursionFn = recursionFn || noop; if (!skipWatchIdCheck && isDefined(ast.watchId)) { intoId = intoId || this.nextId(); this.if_('i', this.lazyAssign(intoId, this.computedMember('i', ast.watchId)), this.lazyRecurse(ast, intoId, nameId, recursionFn, create, true) ); return; } switch (ast.type) { case AST.Program: forEach(ast.body, function(expression, pos) { self.recurse(expression.expression, undefined, undefined, function(expr) { right = expr; }); if (pos !== ast.body.length - 1) { self.current().body.push(right, ';'); } else { self.return_(right); } }); break; case AST.Literal: expression = this.escape(ast.value); this.assign(intoId, expression); recursionFn(expression); break; case AST.UnaryExpression: this.recurse(ast.argument, undefined, undefined, function(expr) { right = expr; }); expression = ast.operator + '(' + this.ifDefined(right, 0) + ')'; this.assign(intoId, expression); recursionFn(expression); break; case AST.BinaryExpression: this.recurse(ast.left, undefined, undefined, function(expr) { left = expr; }); this.recurse(ast.right, undefined, undefined, function(expr) { right = expr; }); if (ast.operator === '+') { expression = this.plus(left, right); } else if (ast.operator === '-') { expression = this.ifDefined(left, 0) + ast.operator + this.ifDefined(right, 0); } else { expression = '(' + left + ')' + ast.operator + '(' + right + ')'; } this.assign(intoId, expression); recursionFn(expression); break; case AST.LogicalExpression: intoId = intoId || this.nextId(); self.recurse(ast.left, intoId); self.if_(ast.operator === '&&' ? intoId : self.not(intoId), self.lazyRecurse(ast.right, intoId)); recursionFn(intoId); break; case AST.ConditionalExpression: intoId = intoId || this.nextId(); self.recurse(ast.test, intoId); self.if_(intoId, self.lazyRecurse(ast.alternate, intoId), self.lazyRecurse(ast.consequent, intoId)); recursionFn(intoId); break; case AST.Identifier: intoId = intoId || this.nextId(); if (nameId) { nameId.context = self.stage === 'inputs' ? 's' : this.assign(this.nextId(), this.getHasOwnProperty('l', ast.name) + '?l:s'); nameId.computed = false; nameId.name = ast.name; } ensureSafeMemberName(ast.name); self.if_(self.stage === 'inputs' || self.not(self.getHasOwnProperty('l', ast.name)), function() { self.if_(self.stage === 'inputs' || 's', function() { if (create && create !== 1) { self.if_( self.not(self.nonComputedMember('s', ast.name)), self.lazyAssign(self.nonComputedMember('s', ast.name), '{}')); } self.assign(intoId, self.nonComputedMember('s', ast.name)); }); }, intoId && self.lazyAssign(intoId, self.nonComputedMember('l', ast.name)) ); if (self.state.expensiveChecks || isPossiblyDangerousMemberName(ast.name)) { self.addEnsureSafeObject(intoId); } recursionFn(intoId); break; case AST.MemberExpression: left = nameId && (nameId.context = this.nextId()) || this.nextId(); intoId = intoId || this.nextId(); self.recurse(ast.object, left, undefined, function() { self.if_(self.notNull(left), function() { if (create && create !== 1) { self.addEnsureSafeAssignContext(left); } if (ast.computed) { right = self.nextId(); self.recurse(ast.property, right); self.getStringValue(right); self.addEnsureSafeMemberName(right); if (create && create !== 1) { self.if_(self.not(self.computedMember(left, right)), self.lazyAssign(self.computedMember(left, right), '{}')); } expression = self.ensureSafeObject(self.computedMember(left, right)); self.assign(intoId, expression); if (nameId) { nameId.computed = true; nameId.name = right; } } else { ensureSafeMemberName(ast.property.name); if (create && create !== 1) { self.if_(self.not(self.nonComputedMember(left, ast.property.name)), self.lazyAssign(self.nonComputedMember(left, ast.property.name), '{}')); } expression = self.nonComputedMember(left, ast.property.name); if (self.state.expensiveChecks || isPossiblyDangerousMemberName(ast.property.name)) { expression = self.ensureSafeObject(expression); } self.assign(intoId, expression); if (nameId) { nameId.computed = false; nameId.name = ast.property.name; } } }, function() { self.assign(intoId, 'undefined'); }); recursionFn(intoId); }, !!create); break; case AST.CallExpression: intoId = intoId || this.nextId(); if (ast.filter) { right = self.filter(ast.callee.name); args = []; forEach(ast.arguments, function(expr) { var argument = self.nextId(); self.recurse(expr, argument); args.push(argument); }); expression = right + '(' + args.join(',') + ')'; self.assign(intoId, expression); recursionFn(intoId); } else { right = self.nextId(); left = {}; args = []; self.recurse(ast.callee, right, left, function() { self.if_(self.notNull(right), function() { self.addEnsureSafeFunction(right); forEach(ast.arguments, function(expr) { self.recurse(expr, self.nextId(), undefined, function(argument) { args.push(self.ensureSafeObject(argument)); }); }); if (left.name) { if (!self.state.expensiveChecks) { self.addEnsureSafeObject(left.context); } expression = self.member(left.context, left.name, left.computed) + '(' + args.join(',') + ')'; } else { expression = right + '(' + args.join(',') + ')'; } expression = self.ensureSafeObject(expression); self.assign(intoId, expression); }, function() { self.assign(intoId, 'undefined'); }); recursionFn(intoId); }); } break; case AST.AssignmentExpression: right = this.nextId(); left = {}; if (!isAssignable(ast.left)) { throw $parseMinErr('lval', 'Trying to assign a value to a non l-value'); } this.recurse(ast.left, undefined, left, function() { self.if_(self.notNull(left.context), function() { self.recurse(ast.right, right); self.addEnsureSafeObject(self.member(left.context, left.name, left.computed)); self.addEnsureSafeAssignContext(left.context); expression = self.member(left.context, left.name, left.computed) + ast.operator + right; self.assign(intoId, expression); recursionFn(intoId || expression); }); }, 1); break; case AST.ArrayExpression: args = []; forEach(ast.elements, function(expr) { self.recurse(expr, self.nextId(), undefined, function(argument) { args.push(argument); }); }); expression = '[' + args.join(',') + ']'; this.assign(intoId, expression); recursionFn(expression); break; case AST.ObjectExpression: args = []; computed = false; forEach(ast.properties, function(property) { if (property.computed) { computed = true; } }); if (computed) { intoId = intoId || this.nextId(); this.assign(intoId, '{}'); forEach(ast.properties, function(property) { if (property.computed) { left = self.nextId(); self.recurse(property.key, left); } else { left = property.key.type === AST.Identifier ? property.key.name : ('' + property.key.value); } right = self.nextId(); self.recurse(property.value, right); self.assign(self.member(intoId, left, property.computed), right); }); } else { forEach(ast.properties, function(property) { self.recurse(property.value, ast.constant ? undefined : self.nextId(), undefined, function(expr) { args.push(self.escape( property.key.type === AST.Identifier ? property.key.name : ('' + property.key.value)) + ':' + expr); }); }); expression = '{' + args.join(',') + '}'; this.assign(intoId, expression); } recursionFn(intoId || expression); break; case AST.ThisExpression: this.assign(intoId, 's'); recursionFn('s'); break; case AST.LocalsExpression: this.assign(intoId, 'l'); recursionFn('l'); break; case AST.NGValueParameter: this.assign(intoId, 'v'); recursionFn('v'); break; } }, getHasOwnProperty: function(element, property) { var key = element + '.' + property; var own = this.current().own; if (!own.hasOwnProperty(key)) { own[key] = this.nextId(false, element + '&&(' + this.escape(property) + ' in ' + element + ')'); } return own[key]; }, assign: function(id, value) { if (!id) return; this.current().body.push(id, '=', value, ';'); return id; }, filter: function(filterName) { if (!this.state.filters.hasOwnProperty(filterName)) { this.state.filters[filterName] = this.nextId(true); } return this.state.filters[filterName]; }, ifDefined: function(id, defaultValue) { return 'ifDefined(' + id + ',' + this.escape(defaultValue) + ')'; }, plus: function(left, right) { return 'plus(' + left + ',' + right + ')'; }, return_: function(id) { this.current().body.push('return ', id, ';'); }, if_: function(test, alternate, consequent) { if (test === true) { alternate(); } else { var body = this.current().body; body.push('if(', test, '){'); alternate(); body.push('}'); if (consequent) { body.push('else{'); consequent(); body.push('}'); } } }, not: function(expression) { return '!(' + expression + ')'; }, notNull: function(expression) { return expression + '!=null'; }, nonComputedMember: function(left, right) { var SAFE_IDENTIFIER = /[$_a-zA-Z][$_a-zA-Z0-9]*/; var UNSAFE_CHARACTERS = /[^$_a-zA-Z0-9]/g; if (SAFE_IDENTIFIER.test(right)) { return left + '.' + right; } else { return left + '["' + right.replace(UNSAFE_CHARACTERS, this.stringEscapeFn) + '"]'; } }, computedMember: function(left, right) { return left + '[' + right + ']'; }, member: function(left, right, computed) { if (computed) return this.computedMember(left, right); return this.nonComputedMember(left, right); }, addEnsureSafeObject: function(item) { this.current().body.push(this.ensureSafeObject(item), ';'); }, addEnsureSafeMemberName: function(item) { this.current().body.push(this.ensureSafeMemberName(item), ';'); }, addEnsureSafeFunction: function(item) { this.current().body.push(this.ensureSafeFunction(item), ';'); }, addEnsureSafeAssignContext: function(item) { this.current().body.push(this.ensureSafeAssignContext(item), ';'); }, ensureSafeObject: function(item) { return 'ensureSafeObject(' + item + ',text)'; }, ensureSafeMemberName: function(item) { return 'ensureSafeMemberName(' + item + ',text)'; }, ensureSafeFunction: function(item) { return 'ensureSafeFunction(' + item + ',text)'; }, getStringValue: function(item) { this.assign(item, 'getStringValue(' + item + ')'); }, ensureSafeAssignContext: function(item) { return 'ensureSafeAssignContext(' + item + ',text)'; }, lazyRecurse: function(ast, intoId, nameId, recursionFn, create, skipWatchIdCheck) { var self = this; return function() { self.recurse(ast, intoId, nameId, recursionFn, create, skipWatchIdCheck); }; }, lazyAssign: function(id, value) { var self = this; return function() { self.assign(id, value); }; }, stringEscapeRegex: /[^ a-zA-Z0-9]/g, stringEscapeFn: function(c) { return '\\u' + ('0000' + c.charCodeAt(0).toString(16)).slice(-4); }, escape: function(value) { if (isString(value)) return "'" + value.replace(this.stringEscapeRegex, this.stringEscapeFn) + "'"; if (isNumber(value)) return value.toString(); if (value === true) return 'true'; if (value === false) return 'false'; if (value === null) return 'null'; if (typeof value === 'undefined') return 'undefined'; throw $parseMinErr('esc', 'IMPOSSIBLE'); }, nextId: function(skip, init) { var id = 'v' + (this.state.nextId++); if (!skip) { this.current().vars.push(id + (init ? '=' + init : '')); } return id; }, current: function() { return this.state[this.state.computing]; } }; function ASTInterpreter(astBuilder, $filter) { this.astBuilder = astBuilder; this.$filter = $filter; } ASTInterpreter.prototype = { compile: function(expression, expensiveChecks) { var self = this; var ast = this.astBuilder.ast(expression); this.expression = expression; this.expensiveChecks = expensiveChecks; findConstantAndWatchExpressions(ast, self.$filter); var assignable; var assign; if ((assignable = assignableAST(ast))) { assign = this.recurse(assignable); } var toWatch = getInputs(ast.body); var inputs; if (toWatch) { inputs = []; forEach(toWatch, function(watch, key) { var input = self.recurse(watch); watch.input = input; inputs.push(input); watch.watchId = key; }); } var expressions = []; forEach(ast.body, function(expression) { expressions.push(self.recurse(expression.expression)); }); var fn = ast.body.length === 0 ? noop : ast.body.length === 1 ? expressions[0] : function(scope, locals) { var lastValue; forEach(expressions, function(exp) { lastValue = exp(scope, locals); }); return lastValue; }; if (assign) { fn.assign = function(scope, value, locals) { return assign(scope, locals, value); }; } if (inputs) { fn.inputs = inputs; } fn.literal = isLiteral(ast); fn.constant = isConstant(ast); return fn; }, recurse: function(ast, context, create) { var left, right, self = this, args, expression; if (ast.input) { return this.inputs(ast.input, ast.watchId); } switch (ast.type) { case AST.Literal: return this.value(ast.value, context); case AST.UnaryExpression: right = this.recurse(ast.argument); return this['unary' + ast.operator](right, context); case AST.BinaryExpression: left = this.recurse(ast.left); right = this.recurse(ast.right); return this['binary' + ast.operator](left, right, context); case AST.LogicalExpression: left = this.recurse(ast.left); right = this.recurse(ast.right); return this['binary' + ast.operator](left, right, context); case AST.ConditionalExpression: return this['ternary?:']( this.recurse(ast.test), this.recurse(ast.alternate), this.recurse(ast.consequent), context ); case AST.Identifier: ensureSafeMemberName(ast.name, self.expression); return self.identifier(ast.name, self.expensiveChecks || isPossiblyDangerousMemberName(ast.name), context, create, self.expression); case AST.MemberExpression: left = this.recurse(ast.object, false, !!create); if (!ast.computed) { ensureSafeMemberName(ast.property.name, self.expression); right = ast.property.name; } if (ast.computed) right = this.recurse(ast.property); return ast.computed ? this.computedMember(left, right, context, create, self.expression) : this.nonComputedMember(left, right, self.expensiveChecks, context, create, self.expression); case AST.CallExpression: args = []; forEach(ast.arguments, function(expr) { args.push(self.recurse(expr)); }); if (ast.filter) right = this.$filter(ast.callee.name); if (!ast.filter) right = this.recurse(ast.callee, true); return ast.filter ? function(scope, locals, assign, inputs) { var values = []; for (var i = 0; i < args.length; ++i) { values.push(args[i](scope, locals, assign, inputs)); } var value = right.apply(undefined, values, inputs); return context ? {context: undefined, name: undefined, value: value} : value; } : function(scope, locals, assign, inputs) { var rhs = right(scope, locals, assign, inputs); var value; if (rhs.value != null) { ensureSafeObject(rhs.context, self.expression); ensureSafeFunction(rhs.value, self.expression); var values = []; for (var i = 0; i < args.length; ++i) { values.push(ensureSafeObject(args[i](scope, locals, assign, inputs), self.expression)); } value = ensureSafeObject(rhs.value.apply(rhs.context, values), self.expression); } return context ? {value: value} : value; }; case AST.AssignmentExpression: left = this.recurse(ast.left, true, 1); right = this.recurse(ast.right); return function(scope, locals, assign, inputs) { var lhs = left(scope, locals, assign, inputs); var rhs = right(scope, locals, assign, inputs); ensureSafeObject(lhs.value, self.expression); ensureSafeAssignContext(lhs.context); lhs.context[lhs.name] = rhs; return context ? {value: rhs} : rhs; }; case AST.ArrayExpression: args = []; forEach(ast.elements, function(expr) { args.push(self.recurse(expr)); }); return function(scope, locals, assign, inputs) { var value = []; for (var i = 0; i < args.length; ++i) { value.push(args[i](scope, locals, assign, inputs)); } return context ? {value: value} : value; }; case AST.ObjectExpression: args = []; forEach(ast.properties, function(property) { if (property.computed) { args.push({key: self.recurse(property.key), computed: true, value: self.recurse(property.value) }); } else { args.push({key: property.key.type === AST.Identifier ? property.key.name : ('' + property.key.value), computed: false, value: self.recurse(property.value) }); } }); return function(scope, locals, assign, inputs) { var value = {}; for (var i = 0; i < args.length; ++i) { if (args[i].computed) { value[args[i].key(scope, locals, assign, inputs)] = args[i].value(scope, locals, assign, inputs); } else { value[args[i].key] = args[i].value(scope, locals, assign, inputs); } } return context ? {value: value} : value; }; case AST.ThisExpression: return function(scope) { return context ? {value: scope} : scope; }; case AST.LocalsExpression: return function(scope, locals) { return context ? {value: locals} : locals; }; case AST.NGValueParameter: return function(scope, locals, assign) { return context ? {value: assign} : assign; }; } }, 'unary+': function(argument, context) { return function(scope, locals, assign, inputs) { var arg = argument(scope, locals, assign, inputs); if (isDefined(arg)) { arg = +arg; } else { arg = 0; } return context ? {value: arg} : arg; }; }, 'unary-': function(argument, context) { return function(scope, locals, assign, inputs) { var arg = argument(scope, locals, assign, inputs); if (isDefined(arg)) { arg = -arg; } else { arg = 0; } return context ? {value: arg} : arg; }; }, 'unary!': function(argument, context) { return function(scope, locals, assign, inputs) { var arg = !argument(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary+': function(left, right, context) { return function(scope, locals, assign, inputs) { var lhs = left(scope, locals, assign, inputs); var rhs = right(scope, locals, assign, inputs); var arg = plusFn(lhs, rhs); return context ? {value: arg} : arg; }; }, 'binary-': function(left, right, context) { return function(scope, locals, assign, inputs) { var lhs = left(scope, locals, assign, inputs); var rhs = right(scope, locals, assign, inputs); var arg = (isDefined(lhs) ? lhs : 0) - (isDefined(rhs) ? rhs : 0); return context ? {value: arg} : arg; }; }, 'binary*': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) * right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary/': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) / right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary%': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) % right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary===': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) === right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary!==': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) !== right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary==': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) == right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary!=': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) != right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary<': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) < right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary>': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) > right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary<=': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) <= right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary>=': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) >= right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary&&': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) && right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'binary||': function(left, right, context) { return function(scope, locals, assign, inputs) { var arg = left(scope, locals, assign, inputs) || right(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, 'ternary?:': function(test, alternate, consequent, context) { return function(scope, locals, assign, inputs) { var arg = test(scope, locals, assign, inputs) ? alternate(scope, locals, assign, inputs) : consequent(scope, locals, assign, inputs); return context ? {value: arg} : arg; }; }, value: function(value, context) { return function() { return context ? {context: undefined, name: undefined, value: value} : value; }; }, identifier: function(name, expensiveChecks, context, create, expression) { return function(scope, locals, assign, inputs) { var base = locals && (name in locals) ? locals : scope; if (create && create !== 1 && base && !(base[name])) { base[name] = {}; } var value = base ? base[name] : undefined; if (expensiveChecks) { ensureSafeObject(value, expression); } if (context) { return {context: base, name: name, value: value}; } else { return value; } }; }, computedMember: function(left, right, context, create, expression) { return function(scope, locals, assign, inputs) { var lhs = left(scope, locals, assign, inputs); var rhs; var value; if (lhs != null) { rhs = right(scope, locals, assign, inputs); rhs = getStringValue(rhs); ensureSafeMemberName(rhs, expression); if (create && create !== 1) { ensureSafeAssignContext(lhs); if (lhs && !(lhs[rhs])) { lhs[rhs] = {}; } } value = lhs[rhs]; ensureSafeObject(value, expression); } if (context) { return {context: lhs, name: rhs, value: value}; } else { return value; } }; }, nonComputedMember: function(left, right, expensiveChecks, context, create, expression) { return function(scope, locals, assign, inputs) { var lhs = left(scope, locals, assign, inputs); if (create && create !== 1) { ensureSafeAssignContext(lhs); if (lhs && !(lhs[right])) { lhs[right] = {}; } } var value = lhs != null ? lhs[right] : undefined; if (expensiveChecks || isPossiblyDangerousMemberName(right)) { ensureSafeObject(value, expression); } if (context) { return {context: lhs, name: right, value: value}; } else { return value; } }; }, inputs: function(input, watchId) { return function(scope, value, locals, inputs) { if (inputs) return inputs[watchId]; return input(scope, value, locals); }; } }; /** * @constructor */ var Parser = function(lexer, $filter, options) { this.lexer = lexer; this.$filter = $filter; this.options = options; this.ast = new AST(lexer, options); this.astCompiler = options.csp ? new ASTInterpreter(this.ast, $filter) : new ASTCompiler(this.ast, $filter); }; Parser.prototype = { constructor: Parser, parse: function(text) { return this.astCompiler.compile(text, this.options.expensiveChecks); } }; function isPossiblyDangerousMemberName(name) { return name == 'constructor'; } var objectValueOf = Object.prototype.valueOf; function getValueOf(value) { return isFunction(value.valueOf) ? value.valueOf() : objectValueOf.call(value); } /////////////////////////////////// /** * @ngdoc service * @name $parse * @kind function * * @description * * Converts Angular {@link guide/expression expression} into a function. * * ```js * var getter = $parse('user.name'); * var setter = getter.assign; * var context = {user:{name:'angular'}}; * var locals = {user:{name:'local'}}; * * expect(getter(context)).toEqual('angular'); * setter(context, 'newValue'); * expect(context.user.name).toEqual('newValue'); * expect(getter(context, locals)).toEqual('local'); * ``` * * * @param {string} expression String expression to compile. * @returns {function(context, locals)} a function which represents the compiled expression: * * * `context` – `{object}` – an object against which any expressions embedded in the strings * are evaluated against (typically a scope object). * * `locals` – `{object=}` – local variables context object, useful for overriding values in * `context`. * * The returned function also has the following properties: * * `literal` – `{boolean}` – whether the expression's top-level node is a JavaScript * literal. * * `constant` – `{boolean}` – whether the expression is made entirely of JavaScript * constant literals. * * `assign` – `{?function(context, value)}` – if the expression is assignable, this will be * set to a function to change its value on the given context. * */ /** * @ngdoc provider * @name $parseProvider * * @description * `$parseProvider` can be used for configuring the default behavior of the {@link ng.$parse $parse} * service. */ function $ParseProvider() { var cacheDefault = createMap(); var cacheExpensive = createMap(); var literals = { 'true': true, 'false': false, 'null': null, 'undefined': undefined }; var identStart, identContinue; /** * @ngdoc method * @name $parseProvider#addLiteral * @description * * Configure $parse service to add literal values that will be present as literal at expressions. * * @param {string} literalName Token for the literal value. The literal name value must be a valid literal name. * @param {*} literalValue Value for this literal. All literal values must be primitives or `undefined`. * **/ this.addLiteral = function(literalName, literalValue) { literals[literalName] = literalValue; }; /** * @ngdoc method * @name $parseProvider#setIdentifierFns * @description * * Allows defining the set of characters that are allowed in Angular expressions. The function * `identifierStart` will get called to know if a given character is a valid character to be the * first character for an identifier. The function `identifierContinue` will get called to know if * a given character is a valid character to be a follow-up identifier character. The functions * `identifierStart` and `identifierContinue` will receive as arguments the single character to be * identifier and the character code point. These arguments will be `string` and `numeric`. Keep in * mind that the `string` parameter can be two characters long depending on the character * representation. It is expected for the function to return `true` or `false`, whether that * character is allowed or not. * * Since this function will be called extensivelly, keep the implementation of these functions fast, * as the performance of these functions have a direct impact on the expressions parsing speed. * * @param {function=} identifierStart The function that will decide whether the given character is * a valid identifier start character. * @param {function=} identifierContinue The function that will decide whether the given character is * a valid identifier continue character. */ this.setIdentifierFns = function(identifierStart, identifierContinue) { identStart = identifierStart; identContinue = identifierContinue; return this; }; this.$get = ['$filter', function($filter) { var noUnsafeEval = csp().noUnsafeEval; var $parseOptions = { csp: noUnsafeEval, expensiveChecks: false, literals: copy(literals), isIdentifierStart: isFunction(identStart) && identStart, isIdentifierContinue: isFunction(identContinue) && identContinue }, $parseOptionsExpensive = { csp: noUnsafeEval, expensiveChecks: true, literals: copy(literals), isIdentifierStart: isFunction(identStart) && identStart, isIdentifierContinue: isFunction(identContinue) && identContinue }; var runningChecksEnabled = false; $parse.$$runningExpensiveChecks = function() { return runningChecksEnabled; }; return $parse; function $parse(exp, interceptorFn, expensiveChecks) { var parsedExpression, oneTime, cacheKey; expensiveChecks = expensiveChecks || runningChecksEnabled; switch (typeof exp) { case 'string': exp = exp.trim(); cacheKey = exp; var cache = (expensiveChecks ? cacheExpensive : cacheDefault); parsedExpression = cache[cacheKey]; if (!parsedExpression) { if (exp.charAt(0) === ':' && exp.charAt(1) === ':') { oneTime = true; exp = exp.substring(2); } var parseOptions = expensiveChecks ? $parseOptionsExpensive : $parseOptions; var lexer = new Lexer(parseOptions); var parser = new Parser(lexer, $filter, parseOptions); parsedExpression = parser.parse(exp); if (parsedExpression.constant) { parsedExpression.$$watchDelegate = constantWatchDelegate; } else if (oneTime) { parsedExpression.$$watchDelegate = parsedExpression.literal ? oneTimeLiteralWatchDelegate : oneTimeWatchDelegate; } else if (parsedExpression.inputs) { parsedExpression.$$watchDelegate = inputsWatchDelegate; } if (expensiveChecks) { parsedExpression = expensiveChecksInterceptor(parsedExpression); } cache[cacheKey] = parsedExpression; } return addInterceptor(parsedExpression, interceptorFn); case 'function': return addInterceptor(exp, interceptorFn); default: return addInterceptor(noop, interceptorFn); } } function expensiveChecksInterceptor(fn) { if (!fn) return fn; expensiveCheckFn.$$watchDelegate = fn.$$watchDelegate; expensiveCheckFn.assign = expensiveChecksInterceptor(fn.assign); expensiveCheckFn.constant = fn.constant; expensiveCheckFn.literal = fn.literal; for (var i = 0; fn.inputs && i < fn.inputs.length; ++i) { fn.inputs[i] = expensiveChecksInterceptor(fn.inputs[i]); } expensiveCheckFn.inputs = fn.inputs; return expensiveCheckFn; function expensiveCheckFn(scope, locals, assign, inputs) { var expensiveCheckOldValue = runningChecksEnabled; runningChecksEnabled = true; try { return fn(scope, locals, assign, inputs); } finally { runningChecksEnabled = expensiveCheckOldValue; } } } function expressionInputDirtyCheck(newValue, oldValueOfValue) { if (newValue == null || oldValueOfValue == null) { // null/undefined return newValue === oldValueOfValue; } if (typeof newValue === 'object') { // attempt to convert the value to a primitive type // TODO(docs): add a note to docs that by implementing valueOf even objects and arrays can // be cheaply dirty-checked newValue = getValueOf(newValue); if (typeof newValue === 'object') { // objects/arrays are not supported - deep-watching them would be too expensive return false; } // fall-through to the primitive equality check } //Primitive or NaN return newValue === oldValueOfValue || (newValue !== newValue && oldValueOfValue !== oldValueOfValue); } function inputsWatchDelegate(scope, listener, objectEquality, parsedExpression, prettyPrintExpression) { var inputExpressions = parsedExpression.inputs; var lastResult; if (inputExpressions.length === 1) { var oldInputValueOf = expressionInputDirtyCheck; // init to something unique so that equals check fails inputExpressions = inputExpressions[0]; return scope.$watch(function expressionInputWatch(scope) { var newInputValue = inputExpressions(scope); if (!expressionInputDirtyCheck(newInputValue, oldInputValueOf)) { lastResult = parsedExpression(scope, undefined, undefined, [newInputValue]); oldInputValueOf = newInputValue && getValueOf(newInputValue); } return lastResult; }, listener, objectEquality, prettyPrintExpression); } var oldInputValueOfValues = []; var oldInputValues = []; for (var i = 0, ii = inputExpressions.length; i < ii; i++) { oldInputValueOfValues[i] = expressionInputDirtyCheck; // init to something unique so that equals check fails oldInputValues[i] = null; } return scope.$watch(function expressionInputsWatch(scope) { var changed = false; for (var i = 0, ii = inputExpressions.length; i < ii; i++) { var newInputValue = inputExpressions[i](scope); if (changed || (changed = !expressionInputDirtyCheck(newInputValue, oldInputValueOfValues[i]))) { oldInputValues[i] = newInputValue; oldInputValueOfValues[i] = newInputValue && getValueOf(newInputValue); } } if (changed) { lastResult = parsedExpression(scope, undefined, undefined, oldInputValues); } return lastResult; }, listener, objectEquality, prettyPrintExpression); } function oneTimeWatchDelegate(scope, listener, objectEquality, parsedExpression) { var unwatch, lastValue; return unwatch = scope.$watch(function oneTimeWatch(scope) { return parsedExpression(scope); }, function oneTimeListener(value, old, scope) { lastValue = value; if (isFunction(listener)) { listener.apply(this, arguments); } if (isDefined(value)) { scope.$$postDigest(function() { if (isDefined(lastValue)) { unwatch(); } }); } }, objectEquality); } function oneTimeLiteralWatchDelegate(scope, listener, objectEquality, parsedExpression) { var unwatch, lastValue; return unwatch = scope.$watch(function oneTimeWatch(scope) { return parsedExpression(scope); }, function oneTimeListener(value, old, scope) { lastValue = value; if (isFunction(listener)) { listener.call(this, value, old, scope); } if (isAllDefined(value)) { scope.$$postDigest(function() { if (isAllDefined(lastValue)) unwatch(); }); } }, objectEquality); function isAllDefined(value) { var allDefined = true; forEach(value, function(val) { if (!isDefined(val)) allDefined = false; }); return allDefined; } } function constantWatchDelegate(scope, listener, objectEquality, parsedExpression) { var unwatch; return unwatch = scope.$watch(function constantWatch(scope) { unwatch(); return parsedExpression(scope); }, listener, objectEquality); } function addInterceptor(parsedExpression, interceptorFn) { if (!interceptorFn) return parsedExpression; var watchDelegate = parsedExpression.$$watchDelegate; var useInputs = false; var regularWatch = watchDelegate !== oneTimeLiteralWatchDelegate && watchDelegate !== oneTimeWatchDelegate; var fn = regularWatch ? function regularInterceptedExpression(scope, locals, assign, inputs) { var value = useInputs && inputs ? inputs[0] : parsedExpression(scope, locals, assign, inputs); return interceptorFn(value, scope, locals); } : function oneTimeInterceptedExpression(scope, locals, assign, inputs) { var value = parsedExpression(scope, locals, assign, inputs); var result = interceptorFn(value, scope, locals); // we only return the interceptor's result if the // initial value is defined (for bind-once) return isDefined(value) ? result : value; }; // Propagate $$watchDelegates other then inputsWatchDelegate if (parsedExpression.$$watchDelegate && parsedExpression.$$watchDelegate !== inputsWatchDelegate) { fn.$$watchDelegate = parsedExpression.$$watchDelegate; } else if (!interceptorFn.$stateful) { // If there is an interceptor, but no watchDelegate then treat the interceptor like // we treat filters - it is assumed to be a pure function unless flagged with $stateful fn.$$watchDelegate = inputsWatchDelegate; useInputs = !parsedExpression.inputs; fn.inputs = parsedExpression.inputs ? parsedExpression.inputs : [parsedExpression]; } return fn; } }]; } /** * @ngdoc service * @name $q * @requires $rootScope * * @description * A service that helps you run functions asynchronously, and use their return values (or exceptions) * when they are done processing. * * This is an implementation of promises/deferred objects inspired by * [Kris Kowal's Q](https://github.com/kriskowal/q). * * $q can be used in two fashions --- one which is more similar to Kris Kowal's Q or jQuery's Deferred * implementations, and the other which resembles ES6 (ES2015) promises to some degree. * * # $q constructor * * The streamlined ES6 style promise is essentially just using $q as a constructor which takes a `resolver` * function as the first argument. This is similar to the native Promise implementation from ES6, * see [MDN](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Promise). * * While the constructor-style use is supported, not all of the supporting methods from ES6 promises are * available yet. * * It can be used like so: * * ```js * // for the purpose of this example let's assume that variables `$q` and `okToGreet` * // are available in the current lexical scope (they could have been injected or passed in). * * function asyncGreet(name) { * // perform some asynchronous operation, resolve or reject the promise when appropriate. * return $q(function(resolve, reject) { * setTimeout(function() { * if (okToGreet(name)) { * resolve('Hello, ' + name + '!'); * } else { * reject('Greeting ' + name + ' is not allowed.'); * } * }, 1000); * }); * } * * var promise = asyncGreet('Robin Hood'); * promise.then(function(greeting) { * alert('Success: ' + greeting); * }, function(reason) { * alert('Failed: ' + reason); * }); * ``` * * Note: progress/notify callbacks are not currently supported via the ES6-style interface. * * Note: unlike ES6 behavior, an exception thrown in the constructor function will NOT implicitly reject the promise. * * However, the more traditional CommonJS-style usage is still available, and documented below. * * [The CommonJS Promise proposal](http://wiki.commonjs.org/wiki/Promises) describes a promise as an * interface for interacting with an object that represents the result of an action that is * performed asynchronously, and may or may not be finished at any given point in time. * * From the perspective of dealing with error handling, deferred and promise APIs are to * asynchronous programming what `try`, `catch` and `throw` keywords are to synchronous programming. * * ```js * // for the purpose of this example let's assume that variables `$q` and `okToGreet` * // are available in the current lexical scope (they could have been injected or passed in). * * function asyncGreet(name) { * var deferred = $q.defer(); * * setTimeout(function() { * deferred.notify('About to greet ' + name + '.'); * * if (okToGreet(name)) { * deferred.resolve('Hello, ' + name + '!'); * } else { * deferred.reject('Greeting ' + name + ' is not allowed.'); * } * }, 1000); * * return deferred.promise; * } * * var promise = asyncGreet('Robin Hood'); * promise.then(function(greeting) { * alert('Success: ' + greeting); * }, function(reason) { * alert('Failed: ' + reason); * }, function(update) { * alert('Got notification: ' + update); * }); * ``` * * At first it might not be obvious why this extra complexity is worth the trouble. The payoff * comes in the way of guarantees that promise and deferred APIs make, see * https://github.com/kriskowal/uncommonjs/blob/master/promises/specification.md. * * Additionally the promise api allows for composition that is very hard to do with the * traditional callback ([CPS](http://en.wikipedia.org/wiki/Continuation-passing_style)) approach. * For more on this please see the [Q documentation](https://github.com/kriskowal/q) especially the * section on serial or parallel joining of promises. * * # The Deferred API * * A new instance of deferred is constructed by calling `$q.defer()`. * * The purpose of the deferred object is to expose the associated Promise instance as well as APIs * that can be used for signaling the successful or unsuccessful completion, as well as the status * of the task. * * **Methods** * * - `resolve(value)` – resolves the derived promise with the `value`. If the value is a rejection * constructed via `$q.reject`, the promise will be rejected instead. * - `reject(reason)` – rejects the derived promise with the `reason`. This is equivalent to * resolving it with a rejection constructed via `$q.reject`. * - `notify(value)` - provides updates on the status of the promise's execution. This may be called * multiple times before the promise is either resolved or rejected. * * **Properties** * * - promise – `{Promise}` – promise object associated with this deferred. * * * # The Promise API * * A new promise instance is created when a deferred instance is created and can be retrieved by * calling `deferred.promise`. * * The purpose of the promise object is to allow for interested parties to get access to the result * of the deferred task when it completes. * * **Methods** * * - `then(successCallback, [errorCallback], [notifyCallback])` – regardless of when the promise was or * will be resolved or rejected, `then` calls one of the success or error callbacks asynchronously * as soon as the result is available. The callbacks are called with a single argument: the result * or rejection reason. Additionally, the notify callback may be called zero or more times to * provide a progress indication, before the promise is resolved or rejected. * * This method *returns a new promise* which is resolved or rejected via the return value of the * `successCallback`, `errorCallback` (unless that value is a promise, in which case it is resolved * with the value which is resolved in that promise using * [promise chaining](http://www.html5rocks.com/en/tutorials/es6/promises/#toc-promises-queues)). * It also notifies via the return value of the `notifyCallback` method. The promise cannot be * resolved or rejected from the notifyCallback method. The errorCallback and notifyCallback * arguments are optional. * * - `catch(errorCallback)` – shorthand for `promise.then(null, errorCallback)` * * - `finally(callback, notifyCallback)` – allows you to observe either the fulfillment or rejection of a promise, * but to do so without modifying the final value. This is useful to release resources or do some * clean-up that needs to be done whether the promise was rejected or resolved. See the [full * specification](https://github.com/kriskowal/q/wiki/API-Reference#promisefinallycallback) for * more information. * * # Chaining promises * * Because calling the `then` method of a promise returns a new derived promise, it is easily * possible to create a chain of promises: * * ```js * promiseB = promiseA.then(function(result) { * return result + 1; * }); * * // promiseB will be resolved immediately after promiseA is resolved and its value * // will be the result of promiseA incremented by 1 * ``` * * It is possible to create chains of any length and since a promise can be resolved with another * promise (which will defer its resolution further), it is possible to pause/defer resolution of * the promises at any point in the chain. This makes it possible to implement powerful APIs like * $http's response interceptors. * * * # Differences between Kris Kowal's Q and $q * * There are two main differences: * * - $q is integrated with the {@link ng.$rootScope.Scope} Scope model observation * mechanism in angular, which means faster propagation of resolution or rejection into your * models and avoiding unnecessary browser repaints, which would result in flickering UI. * - Q has many more features than $q, but that comes at a cost of bytes. $q is tiny, but contains * all the important functionality needed for common async tasks. * * # Testing * * ```js * it('should simulate promise', inject(function($q, $rootScope) { * var deferred = $q.defer(); * var promise = deferred.promise; * var resolvedValue; * * promise.then(function(value) { resolvedValue = value; }); * expect(resolvedValue).toBeUndefined(); * * // Simulate resolving of promise * deferred.resolve(123); * // Note that the 'then' function does not get called synchronously. * // This is because we want the promise API to always be async, whether or not * // it got called synchronously or asynchronously. * expect(resolvedValue).toBeUndefined(); * * // Propagate promise resolution to 'then' functions using $apply(). * $rootScope.$apply(); * expect(resolvedValue).toEqual(123); * })); * ``` * * @param {function(function, function)} resolver Function which is responsible for resolving or * rejecting the newly created promise. The first parameter is a function which resolves the * promise, the second parameter is a function which rejects the promise. * * @returns {Promise} The newly created promise. */ function $QProvider() { this.$get = ['$rootScope', '$exceptionHandler', function($rootScope, $exceptionHandler) { return qFactory(function(callback) { $rootScope.$evalAsync(callback); }, $exceptionHandler); }]; } function $$QProvider() { this.$get = ['$browser', '$exceptionHandler', function($browser, $exceptionHandler) { return qFactory(function(callback) { $browser.defer(callback); }, $exceptionHandler); }]; } /** * Constructs a promise manager. * * @param {function(function)} nextTick Function for executing functions in the next turn. * @param {function(...*)} exceptionHandler Function into which unexpected exceptions are passed for * debugging purposes. * @returns {object} Promise manager. */ function qFactory(nextTick, exceptionHandler) { var $qMinErr = minErr('$q', TypeError); /** * @ngdoc method * @name ng.$q#defer * @kind function * * @description * Creates a `Deferred` object which represents a task which will finish in the future. * * @returns {Deferred} Returns a new instance of deferred. */ var defer = function() { var d = new Deferred(); //Necessary to support unbound execution :/ d.resolve = simpleBind(d, d.resolve); d.reject = simpleBind(d, d.reject); d.notify = simpleBind(d, d.notify); return d; }; function Promise() { this.$$state = { status: 0 }; } extend(Promise.prototype, { then: function(onFulfilled, onRejected, progressBack) { if (isUndefined(onFulfilled) && isUndefined(onRejected) && isUndefined(progressBack)) { return this; } var result = new Deferred(); this.$$state.pending = this.$$state.pending || []; this.$$state.pending.push([result, onFulfilled, onRejected, progressBack]); if (this.$$state.status > 0) scheduleProcessQueue(this.$$state); return result.promise; }, "catch": function(callback) { return this.then(null, callback); }, "finally": function(callback, progressBack) { return this.then(function(value) { return handleCallback(value, true, callback); }, function(error) { return handleCallback(error, false, callback); }, progressBack); } }); //Faster, more basic than angular.bind http://jsperf.com/angular-bind-vs-custom-vs-native function simpleBind(context, fn) { return function(value) { fn.call(context, value); }; } function processQueue(state) { var fn, deferred, pending; pending = state.pending; state.processScheduled = false; state.pending = undefined; for (var i = 0, ii = pending.length; i < ii; ++i) { deferred = pending[i][0]; fn = pending[i][state.status]; try { if (isFunction(fn)) { deferred.resolve(fn(state.value)); } else if (state.status === 1) { deferred.resolve(state.value); } else { deferred.reject(state.value); } } catch (e) { deferred.reject(e); exceptionHandler(e); } } } function scheduleProcessQueue(state) { if (state.processScheduled || !state.pending) return; state.processScheduled = true; nextTick(function() { processQueue(state); }); } function Deferred() { this.promise = new Promise(); } extend(Deferred.prototype, { resolve: function(val) { if (this.promise.$$state.status) return; if (val === this.promise) { this.$$reject($qMinErr( 'qcycle', "Expected promise to be resolved with value other than itself '{0}'", val)); } else { this.$$resolve(val); } }, $$resolve: function(val) { var then; var that = this; var done = false; try { if ((isObject(val) || isFunction(val))) then = val && val.then; if (isFunction(then)) { this.promise.$$state.status = -1; then.call(val, resolvePromise, rejectPromise, simpleBind(this, this.notify)); } else { this.promise.$$state.value = val; this.promise.$$state.status = 1; scheduleProcessQueue(this.promise.$$state); } } catch (e) { rejectPromise(e); exceptionHandler(e); } function resolvePromise(val) { if (done) return; done = true; that.$$resolve(val); } function rejectPromise(val) { if (done) return; done = true; that.$$reject(val); } }, reject: function(reason) { if (this.promise.$$state.status) return; this.$$reject(reason); }, $$reject: function(reason) { this.promise.$$state.value = reason; this.promise.$$state.status = 2; scheduleProcessQueue(this.promise.$$state); }, notify: function(progress) { var callbacks = this.promise.$$state.pending; if ((this.promise.$$state.status <= 0) && callbacks && callbacks.length) { nextTick(function() { var callback, result; for (var i = 0, ii = callbacks.length; i < ii; i++) { result = callbacks[i][0]; callback = callbacks[i][3]; try { result.notify(isFunction(callback) ? callback(progress) : progress); } catch (e) { exceptionHandler(e); } } }); } } }); /** * @ngdoc method * @name $q#reject * @kind function * * @description * Creates a promise that is resolved as rejected with the specified `reason`. This api should be * used to forward rejection in a chain of promises. If you are dealing with the last promise in * a promise chain, you don't need to worry about it. * * When comparing deferreds/promises to the familiar behavior of try/catch/throw, think of * `reject` as the `throw` keyword in JavaScript. This also means that if you "catch" an error via * a promise error callback and you want to forward the error to the promise derived from the * current promise, you have to "rethrow" the error by returning a rejection constructed via * `reject`. * * ```js * promiseB = promiseA.then(function(result) { * // success: do something and resolve promiseB * // with the old or a new result * return result; * }, function(reason) { * // error: handle the error if possible and * // resolve promiseB with newPromiseOrValue, * // otherwise forward the rejection to promiseB * if (canHandle(reason)) { * // handle the error and recover * return newPromiseOrValue; * } * return $q.reject(reason); * }); * ``` * * @param {*} reason Constant, message, exception or an object representing the rejection reason. * @returns {Promise} Returns a promise that was already resolved as rejected with the `reason`. */ var reject = function(reason) { var result = new Deferred(); result.reject(reason); return result.promise; }; var makePromise = function makePromise(value, resolved) { var result = new Deferred(); if (resolved) { result.resolve(value); } else { result.reject(value); } return result.promise; }; var handleCallback = function handleCallback(value, isResolved, callback) { var callbackOutput = null; try { if (isFunction(callback)) callbackOutput = callback(); } catch (e) { return makePromise(e, false); } if (isPromiseLike(callbackOutput)) { return callbackOutput.then(function() { return makePromise(value, isResolved); }, function(error) { return makePromise(error, false); }); } else { return makePromise(value, isResolved); } }; /** * @ngdoc method * @name $q#when * @kind function * * @description * Wraps an object that might be a value or a (3rd party) then-able promise into a $q promise. * This is useful when you are dealing with an object that might or might not be a promise, or if * the promise comes from a source that can't be trusted. * * @param {*} value Value or a promise * @param {Function=} successCallback * @param {Function=} errorCallback * @param {Function=} progressCallback * @returns {Promise} Returns a promise of the passed value or promise */ var when = function(value, callback, errback, progressBack) { var result = new Deferred(); result.resolve(value); return result.promise.then(callback, errback, progressBack); }; /** * @ngdoc method * @name $q#resolve * @kind function * * @description * Alias of {@link ng.$q#when when} to maintain naming consistency with ES6. * * @param {*} value Value or a promise * @param {Function=} successCallback * @param {Function=} errorCallback * @param {Function=} progressCallback * @returns {Promise} Returns a promise of the passed value or promise */ var resolve = when; /** * @ngdoc method * @name $q#all * @kind function * * @description * Combines multiple promises into a single promise that is resolved when all of the input * promises are resolved. * * @param {Array.|Object.} promises An array or hash of promises. * @returns {Promise} Returns a single promise that will be resolved with an array/hash of values, * each value corresponding to the promise at the same index/key in the `promises` array/hash. * If any of the promises is resolved with a rejection, this resulting promise will be rejected * with the same rejection value. */ function all(promises) { var deferred = new Deferred(), counter = 0, results = isArray(promises) ? [] : {}; forEach(promises, function(promise, key) { counter++; when(promise).then(function(value) { if (results.hasOwnProperty(key)) return; results[key] = value; if (!(--counter)) deferred.resolve(results); }, function(reason) { if (results.hasOwnProperty(key)) return; deferred.reject(reason); }); }); if (counter === 0) { deferred.resolve(results); } return deferred.promise; } /** * @ngdoc method * @name $q#race * @kind function * * @description * Returns a promise that resolves or rejects as soon as one of those promises * resolves or rejects, with the value or reason from that promise. * * @param {Array.|Object.} promises An array or hash of promises. * @returns {Promise} a promise that resolves or rejects as soon as one of the `promises` * resolves or rejects, with the value or reason from that promise. */ function race(promises) { var deferred = defer(); forEach(promises, function(promise) { when(promise).then(deferred.resolve, deferred.reject); }); return deferred.promise; } var $Q = function Q(resolver) { if (!isFunction(resolver)) { throw $qMinErr('norslvr', "Expected resolverFn, got '{0}'", resolver); } var deferred = new Deferred(); function resolveFn(value) { deferred.resolve(value); } function rejectFn(reason) { deferred.reject(reason); } resolver(resolveFn, rejectFn); return deferred.promise; }; // Let's make the instanceof operator work for promises, so that // `new $q(fn) instanceof $q` would evaluate to true. $Q.prototype = Promise.prototype; $Q.defer = defer; $Q.reject = reject; $Q.when = when; $Q.resolve = resolve; $Q.all = all; $Q.race = race; return $Q; } function $$RAFProvider() { //rAF this.$get = ['$window', '$timeout', function($window, $timeout) { var requestAnimationFrame = $window.requestAnimationFrame || $window.webkitRequestAnimationFrame; var cancelAnimationFrame = $window.cancelAnimationFrame || $window.webkitCancelAnimationFrame || $window.webkitCancelRequestAnimationFrame; var rafSupported = !!requestAnimationFrame; var raf = rafSupported ? function(fn) { var id = requestAnimationFrame(fn); return function() { cancelAnimationFrame(id); }; } : function(fn) { var timer = $timeout(fn, 16.66, false); // 1000 / 60 = 16.666 return function() { $timeout.cancel(timer); }; }; raf.supported = rafSupported; return raf; }]; } /** * DESIGN NOTES * * The design decisions behind the scope are heavily favored for speed and memory consumption. * * The typical use of scope is to watch the expressions, which most of the time return the same * value as last time so we optimize the operation. * * Closures construction is expensive in terms of speed as well as memory: * - No closures, instead use prototypical inheritance for API * - Internal state needs to be stored on scope directly, which means that private state is * exposed as $$____ properties * * Loop operations are optimized by using while(count--) { ... } * - This means that in order to keep the same order of execution as addition we have to add * items to the array at the beginning (unshift) instead of at the end (push) * * Child scopes are created and removed often * - Using an array would be slow since inserts in the middle are expensive; so we use linked lists * * There are fewer watches than observers. This is why you don't want the observer to be implemented * in the same way as watch. Watch requires return of the initialization function which is expensive * to construct. */ /** * @ngdoc provider * @name $rootScopeProvider * @description * * Provider for the $rootScope service. */ /** * @ngdoc method * @name $rootScopeProvider#digestTtl * @description * * Sets the number of `$digest` iterations the scope should attempt to execute before giving up and * assuming that the model is unstable. * * The current default is 10 iterations. * * In complex applications it's possible that the dependencies between `$watch`s will result in * several digest iterations. However if an application needs more than the default 10 digest * iterations for its model to stabilize then you should investigate what is causing the model to * continuously change during the digest. * * Increasing the TTL could have performance implications, so you should not change it without * proper justification. * * @param {number} limit The number of digest iterations. */ /** * @ngdoc service * @name $rootScope * @description * * Every application has a single root {@link ng.$rootScope.Scope scope}. * All other scopes are descendant scopes of the root scope. Scopes provide separation * between the model and the view, via a mechanism for watching the model for changes. * They also provide event emission/broadcast and subscription facility. See the * {@link guide/scope developer guide on scopes}. */ function $RootScopeProvider() { var TTL = 10; var $rootScopeMinErr = minErr('$rootScope'); var lastDirtyWatch = null; var applyAsyncId = null; this.digestTtl = function(value) { if (arguments.length) { TTL = value; } return TTL; }; function createChildScopeClass(parent) { function ChildScope() { this.$$watchers = this.$$nextSibling = this.$$childHead = this.$$childTail = null; this.$$listeners = {}; this.$$listenerCount = {}; this.$$watchersCount = 0; this.$id = nextUid(); this.$$ChildScope = null; } ChildScope.prototype = parent; return ChildScope; } this.$get = ['$exceptionHandler', '$parse', '$browser', function($exceptionHandler, $parse, $browser) { function destroyChildScope($event) { $event.currentScope.$$destroyed = true; } function cleanUpScope($scope) { if (msie === 9) { // There is a memory leak in IE9 if all child scopes are not disconnected // completely when a scope is destroyed. So this code will recurse up through // all this scopes children // // See issue https://github.com/angular/angular.js/issues/10706 $scope.$$childHead && cleanUpScope($scope.$$childHead); $scope.$$nextSibling && cleanUpScope($scope.$$nextSibling); } // The code below works around IE9 and V8's memory leaks // // See: // - https://code.google.com/p/v8/issues/detail?id=2073#c26 // - https://github.com/angular/angular.js/issues/6794#issuecomment-38648909 // - https://github.com/angular/angular.js/issues/1313#issuecomment-10378451 $scope.$parent = $scope.$$nextSibling = $scope.$$prevSibling = $scope.$$childHead = $scope.$$childTail = $scope.$root = $scope.$$watchers = null; } /** * @ngdoc type * @name $rootScope.Scope * * @description * A root scope can be retrieved using the {@link ng.$rootScope $rootScope} key from the * {@link auto.$injector $injector}. Child scopes are created using the * {@link ng.$rootScope.Scope#$new $new()} method. (Most scopes are created automatically when * compiled HTML template is executed.) See also the {@link guide/scope Scopes guide} for * an in-depth introduction and usage examples. * * * # Inheritance * A scope can inherit from a parent scope, as in this example: * ```js var parent = $rootScope; var child = parent.$new(); parent.salutation = "Hello"; expect(child.salutation).toEqual('Hello'); child.salutation = "Welcome"; expect(child.salutation).toEqual('Welcome'); expect(parent.salutation).toEqual('Hello'); * ``` * * When interacting with `Scope` in tests, additional helper methods are available on the * instances of `Scope` type. See {@link ngMock.$rootScope.Scope ngMock Scope} for additional * details. * * * @param {Object.=} providers Map of service factory which need to be * provided for the current scope. Defaults to {@link ng}. * @param {Object.=} instanceCache Provides pre-instantiated services which should * append/override services provided by `providers`. This is handy * when unit-testing and having the need to override a default * service. * @returns {Object} Newly created scope. * */ function Scope() { this.$id = nextUid(); this.$$phase = this.$parent = this.$$watchers = this.$$nextSibling = this.$$prevSibling = this.$$childHead = this.$$childTail = null; this.$root = this; this.$$destroyed = false; this.$$listeners = {}; this.$$listenerCount = {}; this.$$watchersCount = 0; this.$$isolateBindings = null; } /** * @ngdoc property * @name $rootScope.Scope#$id * * @description * Unique scope ID (monotonically increasing) useful for debugging. */ /** * @ngdoc property * @name $rootScope.Scope#$parent * * @description * Reference to the parent scope. */ /** * @ngdoc property * @name $rootScope.Scope#$root * * @description * Reference to the root scope. */ Scope.prototype = { constructor: Scope, /** * @ngdoc method * @name $rootScope.Scope#$new * @kind function * * @description * Creates a new child {@link ng.$rootScope.Scope scope}. * * The parent scope will propagate the {@link ng.$rootScope.Scope#$digest $digest()} event. * The scope can be removed from the scope hierarchy using {@link ng.$rootScope.Scope#$destroy $destroy()}. * * {@link ng.$rootScope.Scope#$destroy $destroy()} must be called on a scope when it is * desired for the scope and its child scopes to be permanently detached from the parent and * thus stop participating in model change detection and listener notification by invoking. * * @param {boolean} isolate If true, then the scope does not prototypically inherit from the * parent scope. The scope is isolated, as it can not see parent scope properties. * When creating widgets, it is useful for the widget to not accidentally read parent * state. * * @param {Scope} [parent=this] The {@link ng.$rootScope.Scope `Scope`} that will be the `$parent` * of the newly created scope. Defaults to `this` scope if not provided. * This is used when creating a transclude scope to correctly place it * in the scope hierarchy while maintaining the correct prototypical * inheritance. * * @returns {Object} The newly created child scope. * */ $new: function(isolate, parent) { var child; parent = parent || this; if (isolate) { child = new Scope(); child.$root = this.$root; } else { // Only create a child scope class if somebody asks for one, // but cache it to allow the VM to optimize lookups. if (!this.$$ChildScope) { this.$$ChildScope = createChildScopeClass(this); } child = new this.$$ChildScope(); } child.$parent = parent; child.$$prevSibling = parent.$$childTail; if (parent.$$childHead) { parent.$$childTail.$$nextSibling = child; parent.$$childTail = child; } else { parent.$$childHead = parent.$$childTail = child; } // When the new scope is not isolated or we inherit from `this`, and // the parent scope is destroyed, the property `$$destroyed` is inherited // prototypically. In all other cases, this property needs to be set // when the parent scope is destroyed. // The listener needs to be added after the parent is set if (isolate || parent != this) child.$on('$destroy', destroyChildScope); return child; }, /** * @ngdoc method * @name $rootScope.Scope#$watch * @kind function * * @description * Registers a `listener` callback to be executed whenever the `watchExpression` changes. * * - The `watchExpression` is called on every call to {@link ng.$rootScope.Scope#$digest * $digest()} and should return the value that will be watched. (`watchExpression` should not change * its value when executed multiple times with the same input because it may be executed multiple * times by {@link ng.$rootScope.Scope#$digest $digest()}. That is, `watchExpression` should be * [idempotent](http://en.wikipedia.org/wiki/Idempotence). * - The `listener` is called only when the value from the current `watchExpression` and the * previous call to `watchExpression` are not equal (with the exception of the initial run, * see below). Inequality is determined according to reference inequality, * [strict comparison](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Comparison_Operators) * via the `!==` Javascript operator, unless `objectEquality == true` * (see next point) * - When `objectEquality == true`, inequality of the `watchExpression` is determined * according to the {@link angular.equals} function. To save the value of the object for * later comparison, the {@link angular.copy} function is used. This therefore means that * watching complex objects will have adverse memory and performance implications. * - The watch `listener` may change the model, which may trigger other `listener`s to fire. * This is achieved by rerunning the watchers until no changes are detected. The rerun * iteration limit is 10 to prevent an infinite loop deadlock. * * * If you want to be notified whenever {@link ng.$rootScope.Scope#$digest $digest} is called, * you can register a `watchExpression` function with no `listener`. (Be prepared for * multiple calls to your `watchExpression` because it will execute multiple times in a * single {@link ng.$rootScope.Scope#$digest $digest} cycle if a change is detected.) * * After a watcher is registered with the scope, the `listener` fn is called asynchronously * (via {@link ng.$rootScope.Scope#$evalAsync $evalAsync}) to initialize the * watcher. In rare cases, this is undesirable because the listener is called when the result * of `watchExpression` didn't change. To detect this scenario within the `listener` fn, you * can compare the `newVal` and `oldVal`. If these two values are identical (`===`) then the * listener was called due to initialization. * * * * # Example * ```js // let's assume that scope was dependency injected as the $rootScope var scope = $rootScope; scope.name = 'misko'; scope.counter = 0; expect(scope.counter).toEqual(0); scope.$watch('name', function(newValue, oldValue) { scope.counter = scope.counter + 1; }); expect(scope.counter).toEqual(0); scope.$digest(); // the listener is always called during the first $digest loop after it was registered expect(scope.counter).toEqual(1); scope.$digest(); // but now it will not be called unless the value changes expect(scope.counter).toEqual(1); scope.name = 'adam'; scope.$digest(); expect(scope.counter).toEqual(2); // Using a function as a watchExpression var food; scope.foodCounter = 0; expect(scope.foodCounter).toEqual(0); scope.$watch( // This function returns the value being watched. It is called for each turn of the $digest loop function() { return food; }, // This is the change listener, called when the value returned from the above function changes function(newValue, oldValue) { if ( newValue !== oldValue ) { // Only increment the counter if the value changed scope.foodCounter = scope.foodCounter + 1; } } ); // No digest has been run so the counter will be zero expect(scope.foodCounter).toEqual(0); // Run the digest but since food has not changed count will still be zero scope.$digest(); expect(scope.foodCounter).toEqual(0); // Update food and run digest. Now the counter will increment food = 'cheeseburger'; scope.$digest(); expect(scope.foodCounter).toEqual(1); * ``` * * * * @param {(function()|string)} watchExpression Expression that is evaluated on each * {@link ng.$rootScope.Scope#$digest $digest} cycle. A change in the return value triggers * a call to the `listener`. * * - `string`: Evaluated as {@link guide/expression expression} * - `function(scope)`: called with current `scope` as a parameter. * @param {function(newVal, oldVal, scope)} listener Callback called whenever the value * of `watchExpression` changes. * * - `newVal` contains the current value of the `watchExpression` * - `oldVal` contains the previous value of the `watchExpression` * - `scope` refers to the current scope * @param {boolean=} [objectEquality=false] Compare for object equality using {@link angular.equals} instead of * comparing for reference equality. * @returns {function()} Returns a deregistration function for this listener. */ $watch: function(watchExp, listener, objectEquality, prettyPrintExpression) { var get = $parse(watchExp); if (get.$$watchDelegate) { return get.$$watchDelegate(this, listener, objectEquality, get, watchExp); } var scope = this, array = scope.$$watchers, watcher = { fn: listener, last: initWatchVal, get: get, exp: prettyPrintExpression || watchExp, eq: !!objectEquality }; lastDirtyWatch = null; if (!isFunction(listener)) { watcher.fn = noop; } if (!array) { array = scope.$$watchers = []; } // we use unshift since we use a while loop in $digest for speed. // the while loop reads in reverse order. array.unshift(watcher); incrementWatchersCount(this, 1); return function deregisterWatch() { if (arrayRemove(array, watcher) >= 0) { incrementWatchersCount(scope, -1); } lastDirtyWatch = null; }; }, /** * @ngdoc method * @name $rootScope.Scope#$watchGroup * @kind function * * @description * A variant of {@link ng.$rootScope.Scope#$watch $watch()} where it watches an array of `watchExpressions`. * If any one expression in the collection changes the `listener` is executed. * * - The items in the `watchExpressions` array are observed via standard $watch operation and are examined on every * call to $digest() to see if any items changes. * - The `listener` is called whenever any expression in the `watchExpressions` array changes. * * @param {Array.} watchExpressions Array of expressions that will be individually * watched using {@link ng.$rootScope.Scope#$watch $watch()} * * @param {function(newValues, oldValues, scope)} listener Callback called whenever the return value of any * expression in `watchExpressions` changes * The `newValues` array contains the current values of the `watchExpressions`, with the indexes matching * those of `watchExpression` * and the `oldValues` array contains the previous values of the `watchExpressions`, with the indexes matching * those of `watchExpression` * The `scope` refers to the current scope. * @returns {function()} Returns a de-registration function for all listeners. */ $watchGroup: function(watchExpressions, listener) { var oldValues = new Array(watchExpressions.length); var newValues = new Array(watchExpressions.length); var deregisterFns = []; var self = this; var changeReactionScheduled = false; var firstRun = true; if (!watchExpressions.length) { // No expressions means we call the listener ASAP var shouldCall = true; self.$evalAsync(function() { if (shouldCall) listener(newValues, newValues, self); }); return function deregisterWatchGroup() { shouldCall = false; }; } if (watchExpressions.length === 1) { // Special case size of one return this.$watch(watchExpressions[0], function watchGroupAction(value, oldValue, scope) { newValues[0] = value; oldValues[0] = oldValue; listener(newValues, (value === oldValue) ? newValues : oldValues, scope); }); } forEach(watchExpressions, function(expr, i) { var unwatchFn = self.$watch(expr, function watchGroupSubAction(value, oldValue) { newValues[i] = value; oldValues[i] = oldValue; if (!changeReactionScheduled) { changeReactionScheduled = true; self.$evalAsync(watchGroupAction); } }); deregisterFns.push(unwatchFn); }); function watchGroupAction() { changeReactionScheduled = false; if (firstRun) { firstRun = false; listener(newValues, newValues, self); } else { listener(newValues, oldValues, self); } } return function deregisterWatchGroup() { while (deregisterFns.length) { deregisterFns.shift()(); } }; }, /** * @ngdoc method * @name $rootScope.Scope#$watchCollection * @kind function * * @description * Shallow watches the properties of an object and fires whenever any of the properties change * (for arrays, this implies watching the array items; for object maps, this implies watching * the properties). If a change is detected, the `listener` callback is fired. * * - The `obj` collection is observed via standard $watch operation and is examined on every * call to $digest() to see if any items have been added, removed, or moved. * - The `listener` is called whenever anything within the `obj` has changed. Examples include * adding, removing, and moving items belonging to an object or array. * * * # Example * ```js $scope.names = ['igor', 'matias', 'misko', 'james']; $scope.dataCount = 4; $scope.$watchCollection('names', function(newNames, oldNames) { $scope.dataCount = newNames.length; }); expect($scope.dataCount).toEqual(4); $scope.$digest(); //still at 4 ... no changes expect($scope.dataCount).toEqual(4); $scope.names.pop(); $scope.$digest(); //now there's been a change expect($scope.dataCount).toEqual(3); * ``` * * * @param {string|function(scope)} obj Evaluated as {@link guide/expression expression}. The * expression value should evaluate to an object or an array which is observed on each * {@link ng.$rootScope.Scope#$digest $digest} cycle. Any shallow change within the * collection will trigger a call to the `listener`. * * @param {function(newCollection, oldCollection, scope)} listener a callback function called * when a change is detected. * - The `newCollection` object is the newly modified data obtained from the `obj` expression * - The `oldCollection` object is a copy of the former collection data. * Due to performance considerations, the`oldCollection` value is computed only if the * `listener` function declares two or more arguments. * - The `scope` argument refers to the current scope. * * @returns {function()} Returns a de-registration function for this listener. When the * de-registration function is executed, the internal watch operation is terminated. */ $watchCollection: function(obj, listener) { $watchCollectionInterceptor.$stateful = true; var self = this; // the current value, updated on each dirty-check run var newValue; // a shallow copy of the newValue from the last dirty-check run, // updated to match newValue during dirty-check run var oldValue; // a shallow copy of the newValue from when the last change happened var veryOldValue; // only track veryOldValue if the listener is asking for it var trackVeryOldValue = (listener.length > 1); var changeDetected = 0; var changeDetector = $parse(obj, $watchCollectionInterceptor); var internalArray = []; var internalObject = {}; var initRun = true; var oldLength = 0; function $watchCollectionInterceptor(_value) { newValue = _value; var newLength, key, bothNaN, newItem, oldItem; // If the new value is undefined, then return undefined as the watch may be a one-time watch if (isUndefined(newValue)) return; if (!isObject(newValue)) { // if primitive if (oldValue !== newValue) { oldValue = newValue; changeDetected++; } } else if (isArrayLike(newValue)) { if (oldValue !== internalArray) { // we are transitioning from something which was not an array into array. oldValue = internalArray; oldLength = oldValue.length = 0; changeDetected++; } newLength = newValue.length; if (oldLength !== newLength) { // if lengths do not match we need to trigger change notification changeDetected++; oldValue.length = oldLength = newLength; } // copy the items to oldValue and look for changes. for (var i = 0; i < newLength; i++) { oldItem = oldValue[i]; newItem = newValue[i]; bothNaN = (oldItem !== oldItem) && (newItem !== newItem); if (!bothNaN && (oldItem !== newItem)) { changeDetected++; oldValue[i] = newItem; } } } else { if (oldValue !== internalObject) { // we are transitioning from something which was not an object into object. oldValue = internalObject = {}; oldLength = 0; changeDetected++; } // copy the items to oldValue and look for changes. newLength = 0; for (key in newValue) { if (hasOwnProperty.call(newValue, key)) { newLength++; newItem = newValue[key]; oldItem = oldValue[key]; if (key in oldValue) { bothNaN = (oldItem !== oldItem) && (newItem !== newItem); if (!bothNaN && (oldItem !== newItem)) { changeDetected++; oldValue[key] = newItem; } } else { oldLength++; oldValue[key] = newItem; changeDetected++; } } } if (oldLength > newLength) { // we used to have more keys, need to find them and destroy them. changeDetected++; for (key in oldValue) { if (!hasOwnProperty.call(newValue, key)) { oldLength--; delete oldValue[key]; } } } } return changeDetected; } function $watchCollectionAction() { if (initRun) { initRun = false; listener(newValue, newValue, self); } else { listener(newValue, veryOldValue, self); } // make a copy for the next time a collection is changed if (trackVeryOldValue) { if (!isObject(newValue)) { //primitive veryOldValue = newValue; } else if (isArrayLike(newValue)) { veryOldValue = new Array(newValue.length); for (var i = 0; i < newValue.length; i++) { veryOldValue[i] = newValue[i]; } } else { // if object veryOldValue = {}; for (var key in newValue) { if (hasOwnProperty.call(newValue, key)) { veryOldValue[key] = newValue[key]; } } } } } return this.$watch(changeDetector, $watchCollectionAction); }, /** * @ngdoc method * @name $rootScope.Scope#$digest * @kind function * * @description * Processes all of the {@link ng.$rootScope.Scope#$watch watchers} of the current scope and * its children. Because a {@link ng.$rootScope.Scope#$watch watcher}'s listener can change * the model, the `$digest()` keeps calling the {@link ng.$rootScope.Scope#$watch watchers} * until no more listeners are firing. This means that it is possible to get into an infinite * loop. This function will throw `'Maximum iteration limit exceeded.'` if the number of * iterations exceeds 10. * * Usually, you don't call `$digest()` directly in * {@link ng.directive:ngController controllers} or in * {@link ng.$compileProvider#directive directives}. * Instead, you should call {@link ng.$rootScope.Scope#$apply $apply()} (typically from within * a {@link ng.$compileProvider#directive directive}), which will force a `$digest()`. * * If you want to be notified whenever `$digest()` is called, * you can register a `watchExpression` function with * {@link ng.$rootScope.Scope#$watch $watch()} with no `listener`. * * In unit tests, you may need to call `$digest()` to simulate the scope life cycle. * * # Example * ```js var scope = ...; scope.name = 'misko'; scope.counter = 0; expect(scope.counter).toEqual(0); scope.$watch('name', function(newValue, oldValue) { scope.counter = scope.counter + 1; }); expect(scope.counter).toEqual(0); scope.$digest(); // the listener is always called during the first $digest loop after it was registered expect(scope.counter).toEqual(1); scope.$digest(); // but now it will not be called unless the value changes expect(scope.counter).toEqual(1); scope.name = 'adam'; scope.$digest(); expect(scope.counter).toEqual(2); * ``` * */ $digest: function() { var watch, value, last, fn, get, watchers, length, dirty, ttl = TTL, next, current, target = this, watchLog = [], logIdx, asyncTask; beginPhase('$digest'); // Check for changes to browser url that happened in sync before the call to $digest $browser.$$checkUrlChange(); if (this === $rootScope && applyAsyncId !== null) { // If this is the root scope, and $applyAsync has scheduled a deferred $apply(), then // cancel the scheduled $apply and flush the queue of expressions to be evaluated. $browser.defer.cancel(applyAsyncId); flushApplyAsync(); } lastDirtyWatch = null; do { // "while dirty" loop dirty = false; current = target; // It's safe for asyncQueuePosition to be a local variable here because this loop can't // be reentered recursively. Calling $digest from a function passed to $applyAsync would // lead to a '$digest already in progress' error. for (var asyncQueuePosition = 0; asyncQueuePosition < asyncQueue.length; asyncQueuePosition++) { try { asyncTask = asyncQueue[asyncQueuePosition]; asyncTask.scope.$eval(asyncTask.expression, asyncTask.locals); } catch (e) { $exceptionHandler(e); } lastDirtyWatch = null; } asyncQueue.length = 0; traverseScopesLoop: do { // "traverse the scopes" loop if ((watchers = current.$$watchers)) { // process our watches length = watchers.length; while (length--) { try { watch = watchers[length]; // Most common watches are on primitives, in which case we can short // circuit it with === operator, only when === fails do we use .equals if (watch) { get = watch.get; if ((value = get(current)) !== (last = watch.last) && !(watch.eq ? equals(value, last) : (typeof value === 'number' && typeof last === 'number' && isNaN(value) && isNaN(last)))) { dirty = true; lastDirtyWatch = watch; watch.last = watch.eq ? copy(value, null) : value; fn = watch.fn; fn(value, ((last === initWatchVal) ? value : last), current); if (ttl < 5) { logIdx = 4 - ttl; if (!watchLog[logIdx]) watchLog[logIdx] = []; watchLog[logIdx].push({ msg: isFunction(watch.exp) ? 'fn: ' + (watch.exp.name || watch.exp.toString()) : watch.exp, newVal: value, oldVal: last }); } } else if (watch === lastDirtyWatch) { // If the most recently dirty watcher is now clean, short circuit since the remaining watchers // have already been tested. dirty = false; break traverseScopesLoop; } } } catch (e) { $exceptionHandler(e); } } } // Insanity Warning: scope depth-first traversal // yes, this code is a bit crazy, but it works and we have tests to prove it! // this piece should be kept in sync with the traversal in $broadcast if (!(next = ((current.$$watchersCount && current.$$childHead) || (current !== target && current.$$nextSibling)))) { while (current !== target && !(next = current.$$nextSibling)) { current = current.$parent; } } } while ((current = next)); // `break traverseScopesLoop;` takes us to here if ((dirty || asyncQueue.length) && !(ttl--)) { clearPhase(); throw $rootScopeMinErr('infdig', '{0} $digest() iterations reached. Aborting!\n' + 'Watchers fired in the last 5 iterations: {1}', TTL, watchLog); } } while (dirty || asyncQueue.length); clearPhase(); // postDigestQueuePosition isn't local here because this loop can be reentered recursively. while (postDigestQueuePosition < postDigestQueue.length) { try { postDigestQueue[postDigestQueuePosition++](); } catch (e) { $exceptionHandler(e); } } postDigestQueue.length = postDigestQueuePosition = 0; }, /** * @ngdoc event * @name $rootScope.Scope#$destroy * @eventType broadcast on scope being destroyed * * @description * Broadcasted when a scope and its children are being destroyed. * * Note that, in AngularJS, there is also a `$destroy` jQuery event, which can be used to * clean up DOM bindings before an element is removed from the DOM. */ /** * @ngdoc method * @name $rootScope.Scope#$destroy * @kind function * * @description * Removes the current scope (and all of its children) from the parent scope. Removal implies * that calls to {@link ng.$rootScope.Scope#$digest $digest()} will no longer * propagate to the current scope and its children. Removal also implies that the current * scope is eligible for garbage collection. * * The `$destroy()` is usually used by directives such as * {@link ng.directive:ngRepeat ngRepeat} for managing the * unrolling of the loop. * * Just before a scope is destroyed, a `$destroy` event is broadcasted on this scope. * Application code can register a `$destroy` event handler that will give it a chance to * perform any necessary cleanup. * * Note that, in AngularJS, there is also a `$destroy` jQuery event, which can be used to * clean up DOM bindings before an element is removed from the DOM. */ $destroy: function() { // We can't destroy a scope that has been already destroyed. if (this.$$destroyed) return; var parent = this.$parent; this.$broadcast('$destroy'); this.$$destroyed = true; if (this === $rootScope) { //Remove handlers attached to window when $rootScope is removed $browser.$$applicationDestroyed(); } incrementWatchersCount(this, -this.$$watchersCount); for (var eventName in this.$$listenerCount) { decrementListenerCount(this, this.$$listenerCount[eventName], eventName); } // sever all the references to parent scopes (after this cleanup, the current scope should // not be retained by any of our references and should be eligible for garbage collection) if (parent && parent.$$childHead == this) parent.$$childHead = this.$$nextSibling; if (parent && parent.$$childTail == this) parent.$$childTail = this.$$prevSibling; if (this.$$prevSibling) this.$$prevSibling.$$nextSibling = this.$$nextSibling; if (this.$$nextSibling) this.$$nextSibling.$$prevSibling = this.$$prevSibling; // Disable listeners, watchers and apply/digest methods this.$destroy = this.$digest = this.$apply = this.$evalAsync = this.$applyAsync = noop; this.$on = this.$watch = this.$watchGroup = function() { return noop; }; this.$$listeners = {}; // Disconnect the next sibling to prevent `cleanUpScope` destroying those too this.$$nextSibling = null; cleanUpScope(this); }, /** * @ngdoc method * @name $rootScope.Scope#$eval * @kind function * * @description * Executes the `expression` on the current scope and returns the result. Any exceptions in * the expression are propagated (uncaught). This is useful when evaluating Angular * expressions. * * # Example * ```js var scope = ng.$rootScope.Scope(); scope.a = 1; scope.b = 2; expect(scope.$eval('a+b')).toEqual(3); expect(scope.$eval(function(scope){ return scope.a + scope.b; })).toEqual(3); * ``` * * @param {(string|function())=} expression An angular expression to be executed. * * - `string`: execute using the rules as defined in {@link guide/expression expression}. * - `function(scope)`: execute the function with the current `scope` parameter. * * @param {(object)=} locals Local variables object, useful for overriding values in scope. * @returns {*} The result of evaluating the expression. */ $eval: function(expr, locals) { return $parse(expr)(this, locals); }, /** * @ngdoc method * @name $rootScope.Scope#$evalAsync * @kind function * * @description * Executes the expression on the current scope at a later point in time. * * The `$evalAsync` makes no guarantees as to when the `expression` will be executed, only * that: * * - it will execute after the function that scheduled the evaluation (preferably before DOM * rendering). * - at least one {@link ng.$rootScope.Scope#$digest $digest cycle} will be performed after * `expression` execution. * * Any exceptions from the execution of the expression are forwarded to the * {@link ng.$exceptionHandler $exceptionHandler} service. * * __Note:__ if this function is called outside of a `$digest` cycle, a new `$digest` cycle * will be scheduled. However, it is encouraged to always call code that changes the model * from within an `$apply` call. That includes code evaluated via `$evalAsync`. * * @param {(string|function())=} expression An angular expression to be executed. * * - `string`: execute using the rules as defined in {@link guide/expression expression}. * - `function(scope)`: execute the function with the current `scope` parameter. * * @param {(object)=} locals Local variables object, useful for overriding values in scope. */ $evalAsync: function(expr, locals) { // if we are outside of an $digest loop and this is the first time we are scheduling async // task also schedule async auto-flush if (!$rootScope.$$phase && !asyncQueue.length) { $browser.defer(function() { if (asyncQueue.length) { $rootScope.$digest(); } }); } asyncQueue.push({scope: this, expression: $parse(expr), locals: locals}); }, $$postDigest: function(fn) { postDigestQueue.push(fn); }, /** * @ngdoc method * @name $rootScope.Scope#$apply * @kind function * * @description * `$apply()` is used to execute an expression in angular from outside of the angular * framework. (For example from browser DOM events, setTimeout, XHR or third party libraries). * Because we are calling into the angular framework we need to perform proper scope life * cycle of {@link ng.$exceptionHandler exception handling}, * {@link ng.$rootScope.Scope#$digest executing watches}. * * ## Life cycle * * # Pseudo-Code of `$apply()` * ```js function $apply(expr) { try { return $eval(expr); } catch (e) { $exceptionHandler(e); } finally { $root.$digest(); } } * ``` * * * Scope's `$apply()` method transitions through the following stages: * * 1. The {@link guide/expression expression} is executed using the * {@link ng.$rootScope.Scope#$eval $eval()} method. * 2. Any exceptions from the execution of the expression are forwarded to the * {@link ng.$exceptionHandler $exceptionHandler} service. * 3. The {@link ng.$rootScope.Scope#$watch watch} listeners are fired immediately after the * expression was executed using the {@link ng.$rootScope.Scope#$digest $digest()} method. * * * @param {(string|function())=} exp An angular expression to be executed. * * - `string`: execute using the rules as defined in {@link guide/expression expression}. * - `function(scope)`: execute the function with current `scope` parameter. * * @returns {*} The result of evaluating the expression. */ $apply: function(expr) { try { beginPhase('$apply'); try { return this.$eval(expr); } finally { clearPhase(); } } catch (e) { $exceptionHandler(e); } finally { try { $rootScope.$digest(); } catch (e) { $exceptionHandler(e); throw e; } } }, /** * @ngdoc method * @name $rootScope.Scope#$applyAsync * @kind function * * @description * Schedule the invocation of $apply to occur at a later time. The actual time difference * varies across browsers, but is typically around ~10 milliseconds. * * This can be used to queue up multiple expressions which need to be evaluated in the same * digest. * * @param {(string|function())=} exp An angular expression to be executed. * * - `string`: execute using the rules as defined in {@link guide/expression expression}. * - `function(scope)`: execute the function with current `scope` parameter. */ $applyAsync: function(expr) { var scope = this; expr && applyAsyncQueue.push($applyAsyncExpression); expr = $parse(expr); scheduleApplyAsync(); function $applyAsyncExpression() { scope.$eval(expr); } }, /** * @ngdoc method * @name $rootScope.Scope#$on * @kind function * * @description * Listens on events of a given type. See {@link ng.$rootScope.Scope#$emit $emit} for * discussion of event life cycle. * * The event listener function format is: `function(event, args...)`. The `event` object * passed into the listener has the following attributes: * * - `targetScope` - `{Scope}`: the scope on which the event was `$emit`-ed or * `$broadcast`-ed. * - `currentScope` - `{Scope}`: the scope that is currently handling the event. Once the * event propagates through the scope hierarchy, this property is set to null. * - `name` - `{string}`: name of the event. * - `stopPropagation` - `{function=}`: calling `stopPropagation` function will cancel * further event propagation (available only for events that were `$emit`-ed). * - `preventDefault` - `{function}`: calling `preventDefault` sets `defaultPrevented` flag * to true. * - `defaultPrevented` - `{boolean}`: true if `preventDefault` was called. * * @param {string} name Event name to listen on. * @param {function(event, ...args)} listener Function to call when the event is emitted. * @returns {function()} Returns a deregistration function for this listener. */ $on: function(name, listener) { var namedListeners = this.$$listeners[name]; if (!namedListeners) { this.$$listeners[name] = namedListeners = []; } namedListeners.push(listener); var current = this; do { if (!current.$$listenerCount[name]) { current.$$listenerCount[name] = 0; } current.$$listenerCount[name]++; } while ((current = current.$parent)); var self = this; return function() { var indexOfListener = namedListeners.indexOf(listener); if (indexOfListener !== -1) { namedListeners[indexOfListener] = null; decrementListenerCount(self, 1, name); } }; }, /** * @ngdoc method * @name $rootScope.Scope#$emit * @kind function * * @description * Dispatches an event `name` upwards through the scope hierarchy notifying the * registered {@link ng.$rootScope.Scope#$on} listeners. * * The event life cycle starts at the scope on which `$emit` was called. All * {@link ng.$rootScope.Scope#$on listeners} listening for `name` event on this scope get * notified. Afterwards, the event traverses upwards toward the root scope and calls all * registered listeners along the way. The event will stop propagating if one of the listeners * cancels it. * * Any exception emitted from the {@link ng.$rootScope.Scope#$on listeners} will be passed * onto the {@link ng.$exceptionHandler $exceptionHandler} service. * * @param {string} name Event name to emit. * @param {...*} args Optional one or more arguments which will be passed onto the event listeners. * @return {Object} Event object (see {@link ng.$rootScope.Scope#$on}). */ $emit: function(name, args) { var empty = [], namedListeners, scope = this, stopPropagation = false, event = { name: name, targetScope: scope, stopPropagation: function() {stopPropagation = true;}, preventDefault: function() { event.defaultPrevented = true; }, defaultPrevented: false }, listenerArgs = concat([event], arguments, 1), i, length; do { namedListeners = scope.$$listeners[name] || empty; event.currentScope = scope; for (i = 0, length = namedListeners.length; i < length; i++) { // if listeners were deregistered, defragment the array if (!namedListeners[i]) { namedListeners.splice(i, 1); i--; length--; continue; } try { //allow all listeners attached to the current scope to run namedListeners[i].apply(null, listenerArgs); } catch (e) { $exceptionHandler(e); } } //if any listener on the current scope stops propagation, prevent bubbling if (stopPropagation) { event.currentScope = null; return event; } //traverse upwards scope = scope.$parent; } while (scope); event.currentScope = null; return event; }, /** * @ngdoc method * @name $rootScope.Scope#$broadcast * @kind function * * @description * Dispatches an event `name` downwards to all child scopes (and their children) notifying the * registered {@link ng.$rootScope.Scope#$on} listeners. * * The event life cycle starts at the scope on which `$broadcast` was called. All * {@link ng.$rootScope.Scope#$on listeners} listening for `name` event on this scope get * notified. Afterwards, the event propagates to all direct and indirect scopes of the current * scope and calls all registered listeners along the way. The event cannot be canceled. * * Any exception emitted from the {@link ng.$rootScope.Scope#$on listeners} will be passed * onto the {@link ng.$exceptionHandler $exceptionHandler} service. * * @param {string} name Event name to broadcast. * @param {...*} args Optional one or more arguments which will be passed onto the event listeners. * @return {Object} Event object, see {@link ng.$rootScope.Scope#$on} */ $broadcast: function(name, args) { var target = this, current = target, next = target, event = { name: name, targetScope: target, preventDefault: function() { event.defaultPrevented = true; }, defaultPrevented: false }; if (!target.$$listenerCount[name]) return event; var listenerArgs = concat([event], arguments, 1), listeners, i, length; //down while you can, then up and next sibling or up and next sibling until back at root while ((current = next)) { event.currentScope = current; listeners = current.$$listeners[name] || []; for (i = 0, length = listeners.length; i < length; i++) { // if listeners were deregistered, defragment the array if (!listeners[i]) { listeners.splice(i, 1); i--; length--; continue; } try { listeners[i].apply(null, listenerArgs); } catch (e) { $exceptionHandler(e); } } // Insanity Warning: scope depth-first traversal // yes, this code is a bit crazy, but it works and we have tests to prove it! // this piece should be kept in sync with the traversal in $digest // (though it differs due to having the extra check for $$listenerCount) if (!(next = ((current.$$listenerCount[name] && current.$$childHead) || (current !== target && current.$$nextSibling)))) { while (current !== target && !(next = current.$$nextSibling)) { current = current.$parent; } } } event.currentScope = null; return event; } }; var $rootScope = new Scope(); //The internal queues. Expose them on the $rootScope for debugging/testing purposes. var asyncQueue = $rootScope.$$asyncQueue = []; var postDigestQueue = $rootScope.$$postDigestQueue = []; var applyAsyncQueue = $rootScope.$$applyAsyncQueue = []; var postDigestQueuePosition = 0; return $rootScope; function beginPhase(phase) { if ($rootScope.$$phase) { throw $rootScopeMinErr('inprog', '{0} already in progress', $rootScope.$$phase); } $rootScope.$$phase = phase; } function clearPhase() { $rootScope.$$phase = null; } function incrementWatchersCount(current, count) { do { current.$$watchersCount += count; } while ((current = current.$parent)); } function decrementListenerCount(current, count, name) { do { current.$$listenerCount[name] -= count; if (current.$$listenerCount[name] === 0) { delete current.$$listenerCount[name]; } } while ((current = current.$parent)); } /** * function used as an initial value for watchers. * because it's unique we can easily tell it apart from other values */ function initWatchVal() {} function flushApplyAsync() { while (applyAsyncQueue.length) { try { applyAsyncQueue.shift()(); } catch (e) { $exceptionHandler(e); } } applyAsyncId = null; } function scheduleApplyAsync() { if (applyAsyncId === null) { applyAsyncId = $browser.defer(function() { $rootScope.$apply(flushApplyAsync); }); } } }]; } /** * @ngdoc service * @name $rootElement * * @description * The root element of Angular application. This is either the element where {@link * ng.directive:ngApp ngApp} was declared or the element passed into * {@link angular.bootstrap}. The element represents the root element of application. It is also the * location where the application's {@link auto.$injector $injector} service gets * published, and can be retrieved using `$rootElement.injector()`. */ // the implementation is in angular.bootstrap /** * @description * Private service to sanitize uris for links and images. Used by $compile and $sanitize. */ function $$SanitizeUriProvider() { var aHrefSanitizationWhitelist = /^\s*(https?|ftp|mailto|tel|file):/, imgSrcSanitizationWhitelist = /^\s*((https?|ftp|file|blob):|data:image\/)/; /** * @description * Retrieves or overrides the default regular expression that is used for whitelisting of safe * urls during a[href] sanitization. * * The sanitization is a security measure aimed at prevent XSS attacks via html links. * * Any url about to be assigned to a[href] via data-binding is first normalized and turned into * an absolute url. Afterwards, the url is matched against the `aHrefSanitizationWhitelist` * regular expression. If a match is found, the original url is written into the dom. Otherwise, * the absolute url is prefixed with `'unsafe:'` string and only then is it written into the DOM. * * @param {RegExp=} regexp New regexp to whitelist urls with. * @returns {RegExp|ng.$compileProvider} Current RegExp if called without value or self for * chaining otherwise. */ this.aHrefSanitizationWhitelist = function(regexp) { if (isDefined(regexp)) { aHrefSanitizationWhitelist = regexp; return this; } return aHrefSanitizationWhitelist; }; /** * @description * Retrieves or overrides the default regular expression that is used for whitelisting of safe * urls during img[src] sanitization. * * The sanitization is a security measure aimed at prevent XSS attacks via html links. * * Any url about to be assigned to img[src] via data-binding is first normalized and turned into * an absolute url. Afterwards, the url is matched against the `imgSrcSanitizationWhitelist` * regular expression. If a match is found, the original url is written into the dom. Otherwise, * the absolute url is prefixed with `'unsafe:'` string and only then is it written into the DOM. * * @param {RegExp=} regexp New regexp to whitelist urls with. * @returns {RegExp|ng.$compileProvider} Current RegExp if called without value or self for * chaining otherwise. */ this.imgSrcSanitizationWhitelist = function(regexp) { if (isDefined(regexp)) { imgSrcSanitizationWhitelist = regexp; return this; } return imgSrcSanitizationWhitelist; }; this.$get = function() { return function sanitizeUri(uri, isImage) { var regex = isImage ? imgSrcSanitizationWhitelist : aHrefSanitizationWhitelist; var normalizedVal; normalizedVal = urlResolve(uri).href; if (normalizedVal !== '' && !normalizedVal.match(regex)) { return 'unsafe:' + normalizedVal; } return uri; }; }; } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Any commits to this file should be reviewed with security in mind. * * Changes to this file can potentially create security vulnerabilities. * * An approval from 2 Core members with history of modifying * * this file is required. * * * * Does the change somehow allow for arbitrary javascript to be executed? * * Or allows for someone to change the prototype of built-in objects? * * Or gives undesired access to variables likes document or window? * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ var $sceMinErr = minErr('$sce'); var SCE_CONTEXTS = { HTML: 'html', CSS: 'css', URL: 'url', // RESOURCE_URL is a subtype of URL used in contexts where a privileged resource is sourced from a // url. (e.g. ng-include, script src, templateUrl) RESOURCE_URL: 'resourceUrl', JS: 'js' }; // Helper functions follow. function adjustMatcher(matcher) { if (matcher === 'self') { return matcher; } else if (isString(matcher)) { // Strings match exactly except for 2 wildcards - '*' and '**'. // '*' matches any character except those from the set ':/.?&'. // '**' matches any character (like .* in a RegExp). // More than 2 *'s raises an error as it's ill defined. if (matcher.indexOf('***') > -1) { throw $sceMinErr('iwcard', 'Illegal sequence *** in string matcher. String: {0}', matcher); } matcher = escapeForRegexp(matcher). replace('\\*\\*', '.*'). replace('\\*', '[^:/.?&;]*'); return new RegExp('^' + matcher + '$'); } else if (isRegExp(matcher)) { // The only other type of matcher allowed is a Regexp. // Match entire URL / disallow partial matches. // Flags are reset (i.e. no global, ignoreCase or multiline) return new RegExp('^' + matcher.source + '$'); } else { throw $sceMinErr('imatcher', 'Matchers may only be "self", string patterns or RegExp objects'); } } function adjustMatchers(matchers) { var adjustedMatchers = []; if (isDefined(matchers)) { forEach(matchers, function(matcher) { adjustedMatchers.push(adjustMatcher(matcher)); }); } return adjustedMatchers; } /** * @ngdoc service * @name $sceDelegate * @kind function * * @description * * `$sceDelegate` is a service that is used by the `$sce` service to provide {@link ng.$sce Strict * Contextual Escaping (SCE)} services to AngularJS. * * Typically, you would configure or override the {@link ng.$sceDelegate $sceDelegate} instead of * the `$sce` service to customize the way Strict Contextual Escaping works in AngularJS. This is * because, while the `$sce` provides numerous shorthand methods, etc., you really only need to * override 3 core functions (`trustAs`, `getTrusted` and `valueOf`) to replace the way things * work because `$sce` delegates to `$sceDelegate` for these operations. * * Refer {@link ng.$sceDelegateProvider $sceDelegateProvider} to configure this service. * * The default instance of `$sceDelegate` should work out of the box with little pain. While you * can override it completely to change the behavior of `$sce`, the common case would * involve configuring the {@link ng.$sceDelegateProvider $sceDelegateProvider} instead by setting * your own whitelists and blacklists for trusting URLs used for loading AngularJS resources such as * templates. Refer {@link ng.$sceDelegateProvider#resourceUrlWhitelist * $sceDelegateProvider.resourceUrlWhitelist} and {@link * ng.$sceDelegateProvider#resourceUrlBlacklist $sceDelegateProvider.resourceUrlBlacklist} */ /** * @ngdoc provider * @name $sceDelegateProvider * @description * * The `$sceDelegateProvider` provider allows developers to configure the {@link ng.$sceDelegate * $sceDelegate} service. This allows one to get/set the whitelists and blacklists used to ensure * that the URLs used for sourcing Angular templates are safe. Refer {@link * ng.$sceDelegateProvider#resourceUrlWhitelist $sceDelegateProvider.resourceUrlWhitelist} and * {@link ng.$sceDelegateProvider#resourceUrlBlacklist $sceDelegateProvider.resourceUrlBlacklist} * * For the general details about this service in Angular, read the main page for {@link ng.$sce * Strict Contextual Escaping (SCE)}. * * **Example**: Consider the following case. * * - your app is hosted at url `http://myapp.example.com/` * - but some of your templates are hosted on other domains you control such as * `http://srv01.assets.example.com/`,  `http://srv02.assets.example.com/`, etc. * - and you have an open redirect at `http://myapp.example.com/clickThru?...`. * * Here is what a secure configuration for this scenario might look like: * * ``` * angular.module('myApp', []).config(function($sceDelegateProvider) { * $sceDelegateProvider.resourceUrlWhitelist([ * // Allow same origin resource loads. * 'self', * // Allow loading from our assets domain. Notice the difference between * and **. * 'http://srv*.assets.example.com/**' * ]); * * // The blacklist overrides the whitelist so the open redirect here is blocked. * $sceDelegateProvider.resourceUrlBlacklist([ * 'http://myapp.example.com/clickThru**' * ]); * }); * ``` */ function $SceDelegateProvider() { this.SCE_CONTEXTS = SCE_CONTEXTS; // Resource URLs can also be trusted by policy. var resourceUrlWhitelist = ['self'], resourceUrlBlacklist = []; /** * @ngdoc method * @name $sceDelegateProvider#resourceUrlWhitelist * @kind function * * @param {Array=} whitelist When provided, replaces the resourceUrlWhitelist with the value * provided. This must be an array or null. A snapshot of this array is used so further * changes to the array are ignored. * * Follow {@link ng.$sce#resourceUrlPatternItem this link} for a description of the items * allowed in this array. * *
* **Note:** an empty whitelist array will block all URLs! *
* * @return {Array} the currently set whitelist array. * * The **default value** when no whitelist has been explicitly set is `['self']` allowing only * same origin resource requests. * * @description * Sets/Gets the whitelist of trusted resource URLs. */ this.resourceUrlWhitelist = function(value) { if (arguments.length) { resourceUrlWhitelist = adjustMatchers(value); } return resourceUrlWhitelist; }; /** * @ngdoc method * @name $sceDelegateProvider#resourceUrlBlacklist * @kind function * * @param {Array=} blacklist When provided, replaces the resourceUrlBlacklist with the value * provided. This must be an array or null. A snapshot of this array is used so further * changes to the array are ignored. * * Follow {@link ng.$sce#resourceUrlPatternItem this link} for a description of the items * allowed in this array. * * The typical usage for the blacklist is to **block * [open redirects](http://cwe.mitre.org/data/definitions/601.html)** served by your domain as * these would otherwise be trusted but actually return content from the redirected domain. * * Finally, **the blacklist overrides the whitelist** and has the final say. * * @return {Array} the currently set blacklist array. * * The **default value** when no whitelist has been explicitly set is the empty array (i.e. there * is no blacklist.) * * @description * Sets/Gets the blacklist of trusted resource URLs. */ this.resourceUrlBlacklist = function(value) { if (arguments.length) { resourceUrlBlacklist = adjustMatchers(value); } return resourceUrlBlacklist; }; this.$get = ['$injector', function($injector) { var htmlSanitizer = function htmlSanitizer(html) { throw $sceMinErr('unsafe', 'Attempting to use an unsafe value in a safe context.'); }; if ($injector.has('$sanitize')) { htmlSanitizer = $injector.get('$sanitize'); } function matchUrl(matcher, parsedUrl) { if (matcher === 'self') { return urlIsSameOrigin(parsedUrl); } else { // definitely a regex. See adjustMatchers() return !!matcher.exec(parsedUrl.href); } } function isResourceUrlAllowedByPolicy(url) { var parsedUrl = urlResolve(url.toString()); var i, n, allowed = false; // Ensure that at least one item from the whitelist allows this url. for (i = 0, n = resourceUrlWhitelist.length; i < n; i++) { if (matchUrl(resourceUrlWhitelist[i], parsedUrl)) { allowed = true; break; } } if (allowed) { // Ensure that no item from the blacklist blocked this url. for (i = 0, n = resourceUrlBlacklist.length; i < n; i++) { if (matchUrl(resourceUrlBlacklist[i], parsedUrl)) { allowed = false; break; } } } return allowed; } function generateHolderType(Base) { var holderType = function TrustedValueHolderType(trustedValue) { this.$$unwrapTrustedValue = function() { return trustedValue; }; }; if (Base) { holderType.prototype = new Base(); } holderType.prototype.valueOf = function sceValueOf() { return this.$$unwrapTrustedValue(); }; holderType.prototype.toString = function sceToString() { return this.$$unwrapTrustedValue().toString(); }; return holderType; } var trustedValueHolderBase = generateHolderType(), byType = {}; byType[SCE_CONTEXTS.HTML] = generateHolderType(trustedValueHolderBase); byType[SCE_CONTEXTS.CSS] = generateHolderType(trustedValueHolderBase); byType[SCE_CONTEXTS.URL] = generateHolderType(trustedValueHolderBase); byType[SCE_CONTEXTS.JS] = generateHolderType(trustedValueHolderBase); byType[SCE_CONTEXTS.RESOURCE_URL] = generateHolderType(byType[SCE_CONTEXTS.URL]); /** * @ngdoc method * @name $sceDelegate#trustAs * * @description * Returns an object that is trusted by angular for use in specified strict * contextual escaping contexts (such as ng-bind-html, ng-include, any src * attribute interpolation, any dom event binding attribute interpolation * such as for onclick, etc.) that uses the provided value. * See {@link ng.$sce $sce} for enabling strict contextual escaping. * * @param {string} type The kind of context in which this value is safe for use. e.g. url, * resourceUrl, html, js and css. * @param {*} value The value that that should be considered trusted/safe. * @returns {*} A value that can be used to stand in for the provided `value` in places * where Angular expects a $sce.trustAs() return value. */ function trustAs(type, trustedValue) { var Constructor = (byType.hasOwnProperty(type) ? byType[type] : null); if (!Constructor) { throw $sceMinErr('icontext', 'Attempted to trust a value in invalid context. Context: {0}; Value: {1}', type, trustedValue); } if (trustedValue === null || isUndefined(trustedValue) || trustedValue === '') { return trustedValue; } // All the current contexts in SCE_CONTEXTS happen to be strings. In order to avoid trusting // mutable objects, we ensure here that the value passed in is actually a string. if (typeof trustedValue !== 'string') { throw $sceMinErr('itype', 'Attempted to trust a non-string value in a content requiring a string: Context: {0}', type); } return new Constructor(trustedValue); } /** * @ngdoc method * @name $sceDelegate#valueOf * * @description * If the passed parameter had been returned by a prior call to {@link ng.$sceDelegate#trustAs * `$sceDelegate.trustAs`}, returns the value that had been passed to {@link * ng.$sceDelegate#trustAs `$sceDelegate.trustAs`}. * * If the passed parameter is not a value that had been returned by {@link * ng.$sceDelegate#trustAs `$sceDelegate.trustAs`}, returns it as-is. * * @param {*} value The result of a prior {@link ng.$sceDelegate#trustAs `$sceDelegate.trustAs`} * call or anything else. * @returns {*} The `value` that was originally provided to {@link ng.$sceDelegate#trustAs * `$sceDelegate.trustAs`} if `value` is the result of such a call. Otherwise, returns * `value` unchanged. */ function valueOf(maybeTrusted) { if (maybeTrusted instanceof trustedValueHolderBase) { return maybeTrusted.$$unwrapTrustedValue(); } else { return maybeTrusted; } } /** * @ngdoc method * @name $sceDelegate#getTrusted * * @description * Takes the result of a {@link ng.$sceDelegate#trustAs `$sceDelegate.trustAs`} call and * returns the originally supplied value if the queried context type is a supertype of the * created type. If this condition isn't satisfied, throws an exception. * *
* Disabling auto-escaping is extremely dangerous, it usually creates a Cross Site Scripting * (XSS) vulnerability in your application. *
* * @param {string} type The kind of context in which this value is to be used. * @param {*} maybeTrusted The result of a prior {@link ng.$sceDelegate#trustAs * `$sceDelegate.trustAs`} call. * @returns {*} The value the was originally provided to {@link ng.$sceDelegate#trustAs * `$sceDelegate.trustAs`} if valid in this context. Otherwise, throws an exception. */ function getTrusted(type, maybeTrusted) { if (maybeTrusted === null || isUndefined(maybeTrusted) || maybeTrusted === '') { return maybeTrusted; } var constructor = (byType.hasOwnProperty(type) ? byType[type] : null); if (constructor && maybeTrusted instanceof constructor) { return maybeTrusted.$$unwrapTrustedValue(); } // If we get here, then we may only take one of two actions. // 1. sanitize the value for the requested type, or // 2. throw an exception. if (type === SCE_CONTEXTS.RESOURCE_URL) { if (isResourceUrlAllowedByPolicy(maybeTrusted)) { return maybeTrusted; } else { throw $sceMinErr('insecurl', 'Blocked loading resource from url not allowed by $sceDelegate policy. URL: {0}', maybeTrusted.toString()); } } else if (type === SCE_CONTEXTS.HTML) { return htmlSanitizer(maybeTrusted); } throw $sceMinErr('unsafe', 'Attempting to use an unsafe value in a safe context.'); } return { trustAs: trustAs, getTrusted: getTrusted, valueOf: valueOf }; }]; } /** * @ngdoc provider * @name $sceProvider * @description * * The $sceProvider provider allows developers to configure the {@link ng.$sce $sce} service. * - enable/disable Strict Contextual Escaping (SCE) in a module * - override the default implementation with a custom delegate * * Read more about {@link ng.$sce Strict Contextual Escaping (SCE)}. */ /* jshint maxlen: false*/ /** * @ngdoc service * @name $sce * @kind function * * @description * * `$sce` is a service that provides Strict Contextual Escaping services to AngularJS. * * # Strict Contextual Escaping * * Strict Contextual Escaping (SCE) is a mode in which AngularJS requires bindings in certain * contexts to result in a value that is marked as safe to use for that context. One example of * such a context is binding arbitrary html controlled by the user via `ng-bind-html`. We refer * to these contexts as privileged or SCE contexts. * * As of version 1.2, Angular ships with SCE enabled by default. * * Note: When enabled (the default), IE<11 in quirks mode is not supported. In this mode, IE<11 allow * one to execute arbitrary javascript by the use of the expression() syntax. Refer * to learn more about them. * You can ensure your document is in standards mode and not quirks mode by adding `` * to the top of your HTML document. * * SCE assists in writing code in a way that (a) is secure by default and (b) makes auditing for * security vulnerabilities such as XSS, clickjacking, etc. a lot easier. * * Here's an example of a binding in a privileged context: * * ``` * *
* ``` * * Notice that `ng-bind-html` is bound to `userHtml` controlled by the user. With SCE * disabled, this application allows the user to render arbitrary HTML into the DIV. * In a more realistic example, one may be rendering user comments, blog articles, etc. via * bindings. (HTML is just one example of a context where rendering user controlled input creates * security vulnerabilities.) * * For the case of HTML, you might use a library, either on the client side, or on the server side, * to sanitize unsafe HTML before binding to the value and rendering it in the document. * * How would you ensure that every place that used these types of bindings was bound to a value that * was sanitized by your library (or returned as safe for rendering by your server?) How can you * ensure that you didn't accidentally delete the line that sanitized the value, or renamed some * properties/fields and forgot to update the binding to the sanitized value? * * To be secure by default, you want to ensure that any such bindings are disallowed unless you can * determine that something explicitly says it's safe to use a value for binding in that * context. You can then audit your code (a simple grep would do) to ensure that this is only done * for those values that you can easily tell are safe - because they were received from your server, * sanitized by your library, etc. You can organize your codebase to help with this - perhaps * allowing only the files in a specific directory to do this. Ensuring that the internal API * exposed by that code doesn't markup arbitrary values as safe then becomes a more manageable task. * * In the case of AngularJS' SCE service, one uses {@link ng.$sce#trustAs $sce.trustAs} * (and shorthand methods such as {@link ng.$sce#trustAsHtml $sce.trustAsHtml}, etc.) to * obtain values that will be accepted by SCE / privileged contexts. * * * ## How does it work? * * In privileged contexts, directives and code will bind to the result of {@link ng.$sce#getTrusted * $sce.getTrusted(context, value)} rather than to the value directly. Directives use {@link * ng.$sce#parseAs $sce.parseAs} rather than `$parse` to watch attribute bindings, which performs the * {@link ng.$sce#getTrusted $sce.getTrusted} behind the scenes on non-constant literals. * * As an example, {@link ng.directive:ngBindHtml ngBindHtml} uses {@link * ng.$sce#parseAsHtml $sce.parseAsHtml(binding expression)}. Here's the actual code (slightly * simplified): * * ``` * var ngBindHtmlDirective = ['$sce', function($sce) { * return function(scope, element, attr) { * scope.$watch($sce.parseAsHtml(attr.ngBindHtml), function(value) { * element.html(value || ''); * }); * }; * }]; * ``` * * ## Impact on loading templates * * This applies both to the {@link ng.directive:ngInclude `ng-include`} directive as well as * `templateUrl`'s specified by {@link guide/directive directives}. * * By default, Angular only loads templates from the same domain and protocol as the application * document. This is done by calling {@link ng.$sce#getTrustedResourceUrl * $sce.getTrustedResourceUrl} on the template URL. To load templates from other domains and/or * protocols, you may either {@link ng.$sceDelegateProvider#resourceUrlWhitelist whitelist * them} or {@link ng.$sce#trustAsResourceUrl wrap it} into a trusted value. * * *Please note*: * The browser's * [Same Origin Policy](https://code.google.com/p/browsersec/wiki/Part2#Same-origin_policy_for_XMLHttpRequest) * and [Cross-Origin Resource Sharing (CORS)](http://www.w3.org/TR/cors/) * policy apply in addition to this and may further restrict whether the template is successfully * loaded. This means that without the right CORS policy, loading templates from a different domain * won't work on all browsers. Also, loading templates from `file://` URL does not work on some * browsers. * * ## This feels like too much overhead * * It's important to remember that SCE only applies to interpolation expressions. * * If your expressions are constant literals, they're automatically trusted and you don't need to * call `$sce.trustAs` on them (remember to include the `ngSanitize` module) (e.g. * `
`) just works. * * Additionally, `a[href]` and `img[src]` automatically sanitize their URLs and do not pass them * through {@link ng.$sce#getTrusted $sce.getTrusted}. SCE doesn't play a role here. * * The included {@link ng.$sceDelegate $sceDelegate} comes with sane defaults to allow you to load * templates in `ng-include` from your application's domain without having to even know about SCE. * It blocks loading templates from other domains or loading templates over http from an https * served document. You can change these by setting your own custom {@link * ng.$sceDelegateProvider#resourceUrlWhitelist whitelists} and {@link * ng.$sceDelegateProvider#resourceUrlBlacklist blacklists} for matching such URLs. * * This significantly reduces the overhead. It is far easier to pay the small overhead and have an * application that's secure and can be audited to verify that with much more ease than bolting * security onto an application later. * * * ## What trusted context types are supported? * * | Context | Notes | * |---------------------|----------------| * | `$sce.HTML` | For HTML that's safe to source into the application. The {@link ng.directive:ngBindHtml ngBindHtml} directive uses this context for bindings. If an unsafe value is encountered and the {@link ngSanitize $sanitize} module is present this will sanitize the value instead of throwing an error. | * | `$sce.CSS` | For CSS that's safe to source into the application. Currently unused. Feel free to use it in your own directives. | * | `$sce.URL` | For URLs that are safe to follow as links. Currently unused (`
Note that `$sce.RESOURCE_URL` makes a stronger statement about the URL than `$sce.URL` does and therefore contexts requiring values trusted for `$sce.RESOURCE_URL` can be used anywhere that values trusted for `$sce.URL` are required. | * | `$sce.JS` | For JavaScript that is safe to execute in your application's context. Currently unused. Feel free to use it in your own directives. | * * ## Format of items in {@link ng.$sceDelegateProvider#resourceUrlWhitelist resourceUrlWhitelist}/{@link ng.$sceDelegateProvider#resourceUrlBlacklist Blacklist} * * Each element in these arrays must be one of the following: * * - **'self'** * - The special **string**, `'self'`, can be used to match against all URLs of the **same * domain** as the application document using the **same protocol**. * - **String** (except the special value `'self'`) * - The string is matched against the full *normalized / absolute URL* of the resource * being tested (substring matches are not good enough.) * - There are exactly **two wildcard sequences** - `*` and `**`. All other characters * match themselves. * - `*`: matches zero or more occurrences of any character other than one of the following 6 * characters: '`:`', '`/`', '`.`', '`?`', '`&`' and '`;`'. It's a useful wildcard for use * in a whitelist. * - `**`: matches zero or more occurrences of *any* character. As such, it's not * appropriate for use in a scheme, domain, etc. as it would match too much. (e.g. * http://**.example.com/ would match http://evil.com/?ignore=.example.com/ and that might * not have been the intention.) Its usage at the very end of the path is ok. (e.g. * http://foo.example.com/templates/**). * - **RegExp** (*see caveat below*) * - *Caveat*: While regular expressions are powerful and offer great flexibility, their syntax * (and all the inevitable escaping) makes them *harder to maintain*. It's easy to * accidentally introduce a bug when one updates a complex expression (imho, all regexes should * have good test coverage). For instance, the use of `.` in the regex is correct only in a * small number of cases. A `.` character in the regex used when matching the scheme or a * subdomain could be matched against a `:` or literal `.` that was likely not intended. It * is highly recommended to use the string patterns and only fall back to regular expressions * as a last resort. * - The regular expression must be an instance of RegExp (i.e. not a string.) It is * matched against the **entire** *normalized / absolute URL* of the resource being tested * (even when the RegExp did not have the `^` and `$` codes.) In addition, any flags * present on the RegExp (such as multiline, global, ignoreCase) are ignored. * - If you are generating your JavaScript from some other templating engine (not * recommended, e.g. in issue [#4006](https://github.com/angular/angular.js/issues/4006)), * remember to escape your regular expression (and be aware that you might need more than * one level of escaping depending on your templating engine and the way you interpolated * the value.) Do make use of your platform's escaping mechanism as it might be good * enough before coding your own. E.g. Ruby has * [Regexp.escape(str)](http://www.ruby-doc.org/core-2.0.0/Regexp.html#method-c-escape) * and Python has [re.escape](http://docs.python.org/library/re.html#re.escape). * Javascript lacks a similar built in function for escaping. Take a look at Google * Closure library's [goog.string.regExpEscape(s)]( * http://docs.closure-library.googlecode.com/git/closure_goog_string_string.js.source.html#line962). * * Refer {@link ng.$sceDelegateProvider $sceDelegateProvider} for an example. * * ## Show me an example using SCE. * * * *
*

* User comments
* By default, HTML that isn't explicitly trusted (e.g. Alice's comment) is sanitized when * $sanitize is available. If $sanitize isn't available, this results in an error instead of an * exploit. *
*
* {{userComment.name}}: * *
*
*
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* * * * angular.module('mySceApp', ['ngSanitize']) * .controller('AppController', ['$http', '$templateCache', '$sce', * function($http, $templateCache, $sce) { * var self = this; * $http.get("test_data.json", {cache: $templateCache}).success(function(userComments) { * self.userComments = userComments; * }); * self.explicitlyTrustedHtml = $sce.trustAsHtml( * 'Hover over this text.'); * }]); * * * * [ * { "name": "Alice", * "htmlComment": * "Is anyone reading this?" * }, * { "name": "Bob", * "htmlComment": "Yes! Am I the only other one?" * } * ] * * * * describe('SCE doc demo', function() { * it('should sanitize untrusted values', function() { * expect(element.all(by.css('.htmlComment')).first().getInnerHtml()) * .toBe('Is anyone reading this?'); * }); * * it('should NOT sanitize explicitly trusted values', function() { * expect(element(by.id('explicitlyTrustedHtml')).getInnerHtml()).toBe( * 'Hover over this text.'); * }); * }); * * * * * * ## Can I disable SCE completely? * * Yes, you can. However, this is strongly discouraged. SCE gives you a lot of security benefits * for little coding overhead. It will be much harder to take an SCE disabled application and * either secure it on your own or enable SCE at a later stage. It might make sense to disable SCE * for cases where you have a lot of existing code that was written before SCE was introduced and * you're migrating them a module at a time. * * That said, here's how you can completely disable SCE: * * ``` * angular.module('myAppWithSceDisabledmyApp', []).config(function($sceProvider) { * // Completely disable SCE. For demonstration purposes only! * // Do not use in new projects. * $sceProvider.enabled(false); * }); * ``` * */ /* jshint maxlen: 100 */ function $SceProvider() { var enabled = true; /** * @ngdoc method * @name $sceProvider#enabled * @kind function * * @param {boolean=} value If provided, then enables/disables SCE. * @return {boolean} true if SCE is enabled, false otherwise. * * @description * Enables/disables SCE and returns the current value. */ this.enabled = function(value) { if (arguments.length) { enabled = !!value; } return enabled; }; /* Design notes on the default implementation for SCE. * * The API contract for the SCE delegate * ------------------------------------- * The SCE delegate object must provide the following 3 methods: * * - trustAs(contextEnum, value) * This method is used to tell the SCE service that the provided value is OK to use in the * contexts specified by contextEnum. It must return an object that will be accepted by * getTrusted() for a compatible contextEnum and return this value. * * - valueOf(value) * For values that were not produced by trustAs(), return them as is. For values that were * produced by trustAs(), return the corresponding input value to trustAs. Basically, if * trustAs is wrapping the given values into some type, this operation unwraps it when given * such a value. * * - getTrusted(contextEnum, value) * This function should return the a value that is safe to use in the context specified by * contextEnum or throw and exception otherwise. * * NOTE: This contract deliberately does NOT state that values returned by trustAs() must be * opaque or wrapped in some holder object. That happens to be an implementation detail. For * instance, an implementation could maintain a registry of all trusted objects by context. In * such a case, trustAs() would return the same object that was passed in. getTrusted() would * return the same object passed in if it was found in the registry under a compatible context or * throw an exception otherwise. An implementation might only wrap values some of the time based * on some criteria. getTrusted() might return a value and not throw an exception for special * constants or objects even if not wrapped. All such implementations fulfill this contract. * * * A note on the inheritance model for SCE contexts * ------------------------------------------------ * I've used inheritance and made RESOURCE_URL wrapped types a subtype of URL wrapped types. This * is purely an implementation details. * * The contract is simply this: * * getTrusted($sce.RESOURCE_URL, value) succeeding implies that getTrusted($sce.URL, value) * will also succeed. * * Inheritance happens to capture this in a natural way. In some future, we * may not use inheritance anymore. That is OK because no code outside of * sce.js and sceSpecs.js would need to be aware of this detail. */ this.$get = ['$parse', '$sceDelegate', function( $parse, $sceDelegate) { // Prereq: Ensure that we're not running in IE<11 quirks mode. In that mode, IE < 11 allow // the "expression(javascript expression)" syntax which is insecure. if (enabled && msie < 8) { throw $sceMinErr('iequirks', 'Strict Contextual Escaping does not support Internet Explorer version < 11 in quirks ' + 'mode. You can fix this by adding the text to the top of your HTML ' + 'document. See http://docs.angularjs.org/api/ng.$sce for more information.'); } var sce = shallowCopy(SCE_CONTEXTS); /** * @ngdoc method * @name $sce#isEnabled * @kind function * * @return {Boolean} true if SCE is enabled, false otherwise. If you want to set the value, you * have to do it at module config time on {@link ng.$sceProvider $sceProvider}. * * @description * Returns a boolean indicating if SCE is enabled. */ sce.isEnabled = function() { return enabled; }; sce.trustAs = $sceDelegate.trustAs; sce.getTrusted = $sceDelegate.getTrusted; sce.valueOf = $sceDelegate.valueOf; if (!enabled) { sce.trustAs = sce.getTrusted = function(type, value) { return value; }; sce.valueOf = identity; } /** * @ngdoc method * @name $sce#parseAs * * @description * Converts Angular {@link guide/expression expression} into a function. This is like {@link * ng.$parse $parse} and is identical when the expression is a literal constant. Otherwise, it * wraps the expression in a call to {@link ng.$sce#getTrusted $sce.getTrusted(*type*, * *result*)} * * @param {string} type The kind of SCE context in which this result will be used. * @param {string} expression String expression to compile. * @returns {function(context, locals)} a function which represents the compiled expression: * * * `context` – `{object}` – an object against which any expressions embedded in the strings * are evaluated against (typically a scope object). * * `locals` – `{object=}` – local variables context object, useful for overriding values in * `context`. */ sce.parseAs = function sceParseAs(type, expr) { var parsed = $parse(expr); if (parsed.literal && parsed.constant) { return parsed; } else { return $parse(expr, function(value) { return sce.getTrusted(type, value); }); } }; /** * @ngdoc method * @name $sce#trustAs * * @description * Delegates to {@link ng.$sceDelegate#trustAs `$sceDelegate.trustAs`}. As such, * returns an object that is trusted by angular for use in specified strict contextual * escaping contexts (such as ng-bind-html, ng-include, any src attribute * interpolation, any dom event binding attribute interpolation such as for onclick, etc.) * that uses the provided value. See * {@link ng.$sce $sce} for enabling strict contextual * escaping. * * @param {string} type The kind of context in which this value is safe for use. e.g. url, * resourceUrl, html, js and css. * @param {*} value The value that that should be considered trusted/safe. * @returns {*} A value that can be used to stand in for the provided `value` in places * where Angular expects a $sce.trustAs() return value. */ /** * @ngdoc method * @name $sce#trustAsHtml * * @description * Shorthand method. `$sce.trustAsHtml(value)` → * {@link ng.$sceDelegate#trustAs `$sceDelegate.trustAs($sce.HTML, value)`} * * @param {*} value The value to trustAs. * @returns {*} An object that can be passed to {@link ng.$sce#getTrustedHtml * $sce.getTrustedHtml(value)} to obtain the original value. (privileged directives * only accept expressions that are either literal constants or are the * return value of {@link ng.$sce#trustAs $sce.trustAs}.) */ /** * @ngdoc method * @name $sce#trustAsUrl * * @description * Shorthand method. `$sce.trustAsUrl(value)` → * {@link ng.$sceDelegate#trustAs `$sceDelegate.trustAs($sce.URL, value)`} * * @param {*} value The value to trustAs. * @returns {*} An object that can be passed to {@link ng.$sce#getTrustedUrl * $sce.getTrustedUrl(value)} to obtain the original value. (privileged directives * only accept expressions that are either literal constants or are the * return value of {@link ng.$sce#trustAs $sce.trustAs}.) */ /** * @ngdoc method * @name $sce#trustAsResourceUrl * * @description * Shorthand method. `$sce.trustAsResourceUrl(value)` → * {@link ng.$sceDelegate#trustAs `$sceDelegate.trustAs($sce.RESOURCE_URL, value)`} * * @param {*} value The value to trustAs. * @returns {*} An object that can be passed to {@link ng.$sce#getTrustedResourceUrl * $sce.getTrustedResourceUrl(value)} to obtain the original value. (privileged directives * only accept expressions that are either literal constants or are the return * value of {@link ng.$sce#trustAs $sce.trustAs}.) */ /** * @ngdoc method * @name $sce#trustAsJs * * @description * Shorthand method. `$sce.trustAsJs(value)` → * {@link ng.$sceDelegate#trustAs `$sceDelegate.trustAs($sce.JS, value)`} * * @param {*} value The value to trustAs. * @returns {*} An object that can be passed to {@link ng.$sce#getTrustedJs * $sce.getTrustedJs(value)} to obtain the original value. (privileged directives * only accept expressions that are either literal constants or are the * return value of {@link ng.$sce#trustAs $sce.trustAs}.) */ /** * @ngdoc method * @name $sce#getTrusted * * @description * Delegates to {@link ng.$sceDelegate#getTrusted `$sceDelegate.getTrusted`}. As such, * takes the result of a {@link ng.$sce#trustAs `$sce.trustAs`}() call and returns the * originally supplied value if the queried context type is a supertype of the created type. * If this condition isn't satisfied, throws an exception. * * @param {string} type The kind of context in which this value is to be used. * @param {*} maybeTrusted The result of a prior {@link ng.$sce#trustAs `$sce.trustAs`} * call. * @returns {*} The value the was originally provided to * {@link ng.$sce#trustAs `$sce.trustAs`} if valid in this context. * Otherwise, throws an exception. */ /** * @ngdoc method * @name $sce#getTrustedHtml * * @description * Shorthand method. `$sce.getTrustedHtml(value)` → * {@link ng.$sceDelegate#getTrusted `$sceDelegate.getTrusted($sce.HTML, value)`} * * @param {*} value The value to pass to `$sce.getTrusted`. * @returns {*} The return value of `$sce.getTrusted($sce.HTML, value)` */ /** * @ngdoc method * @name $sce#getTrustedCss * * @description * Shorthand method. `$sce.getTrustedCss(value)` → * {@link ng.$sceDelegate#getTrusted `$sceDelegate.getTrusted($sce.CSS, value)`} * * @param {*} value The value to pass to `$sce.getTrusted`. * @returns {*} The return value of `$sce.getTrusted($sce.CSS, value)` */ /** * @ngdoc method * @name $sce#getTrustedUrl * * @description * Shorthand method. `$sce.getTrustedUrl(value)` → * {@link ng.$sceDelegate#getTrusted `$sceDelegate.getTrusted($sce.URL, value)`} * * @param {*} value The value to pass to `$sce.getTrusted`. * @returns {*} The return value of `$sce.getTrusted($sce.URL, value)` */ /** * @ngdoc method * @name $sce#getTrustedResourceUrl * * @description * Shorthand method. `$sce.getTrustedResourceUrl(value)` → * {@link ng.$sceDelegate#getTrusted `$sceDelegate.getTrusted($sce.RESOURCE_URL, value)`} * * @param {*} value The value to pass to `$sceDelegate.getTrusted`. * @returns {*} The return value of `$sce.getTrusted($sce.RESOURCE_URL, value)` */ /** * @ngdoc method * @name $sce#getTrustedJs * * @description * Shorthand method. `$sce.getTrustedJs(value)` → * {@link ng.$sceDelegate#getTrusted `$sceDelegate.getTrusted($sce.JS, value)`} * * @param {*} value The value to pass to `$sce.getTrusted`. * @returns {*} The return value of `$sce.getTrusted($sce.JS, value)` */ /** * @ngdoc method * @name $sce#parseAsHtml * * @description * Shorthand method. `$sce.parseAsHtml(expression string)` → * {@link ng.$sce#parseAs `$sce.parseAs($sce.HTML, value)`} * * @param {string} expression String expression to compile. * @returns {function(context, locals)} a function which represents the compiled expression: * * * `context` – `{object}` – an object against which any expressions embedded in the strings * are evaluated against (typically a scope object). * * `locals` – `{object=}` – local variables context object, useful for overriding values in * `context`. */ /** * @ngdoc method * @name $sce#parseAsCss * * @description * Shorthand method. `$sce.parseAsCss(value)` → * {@link ng.$sce#parseAs `$sce.parseAs($sce.CSS, value)`} * * @param {string} expression String expression to compile. * @returns {function(context, locals)} a function which represents the compiled expression: * * * `context` – `{object}` – an object against which any expressions embedded in the strings * are evaluated against (typically a scope object). * * `locals` – `{object=}` – local variables context object, useful for overriding values in * `context`. */ /** * @ngdoc method * @name $sce#parseAsUrl * * @description * Shorthand method. `$sce.parseAsUrl(value)` → * {@link ng.$sce#parseAs `$sce.parseAs($sce.URL, value)`} * * @param {string} expression String expression to compile. * @returns {function(context, locals)} a function which represents the compiled expression: * * * `context` – `{object}` – an object against which any expressions embedded in the strings * are evaluated against (typically a scope object). * * `locals` – `{object=}` – local variables context object, useful for overriding values in * `context`. */ /** * @ngdoc method * @name $sce#parseAsResourceUrl * * @description * Shorthand method. `$sce.parseAsResourceUrl(value)` → * {@link ng.$sce#parseAs `$sce.parseAs($sce.RESOURCE_URL, value)`} * * @param {string} expression String expression to compile. * @returns {function(context, locals)} a function which represents the compiled expression: * * * `context` – `{object}` – an object against which any expressions embedded in the strings * are evaluated against (typically a scope object). * * `locals` – `{object=}` – local variables context object, useful for overriding values in * `context`. */ /** * @ngdoc method * @name $sce#parseAsJs * * @description * Shorthand method. `$sce.parseAsJs(value)` → * {@link ng.$sce#parseAs `$sce.parseAs($sce.JS, value)`} * * @param {string} expression String expression to compile. * @returns {function(context, locals)} a function which represents the compiled expression: * * * `context` – `{object}` – an object against which any expressions embedded in the strings * are evaluated against (typically a scope object). * * `locals` – `{object=}` – local variables context object, useful for overriding values in * `context`. */ // Shorthand delegations. var parse = sce.parseAs, getTrusted = sce.getTrusted, trustAs = sce.trustAs; forEach(SCE_CONTEXTS, function(enumValue, name) { var lName = lowercase(name); sce[camelCase("parse_as_" + lName)] = function(expr) { return parse(enumValue, expr); }; sce[camelCase("get_trusted_" + lName)] = function(value) { return getTrusted(enumValue, value); }; sce[camelCase("trust_as_" + lName)] = function(value) { return trustAs(enumValue, value); }; }); return sce; }]; } /** * !!! This is an undocumented "private" service !!! * * @name $sniffer * @requires $window * @requires $document * * @property {boolean} history Does the browser support html5 history api ? * @property {boolean} transitions Does the browser support CSS transition events ? * @property {boolean} animations Does the browser support CSS animation events ? * * @description * This is very simple implementation of testing browser's features. */ function $SnifferProvider() { this.$get = ['$window', '$document', function($window, $document) { var eventSupport = {}, // Chrome Packaged Apps are not allowed to access `history.pushState`. They can be detected by // the presence of `chrome.app.runtime` (see https://developer.chrome.com/apps/api_index) isChromePackagedApp = $window.chrome && $window.chrome.app && $window.chrome.app.runtime, hasHistoryPushState = !isChromePackagedApp && $window.history && $window.history.pushState, android = toInt((/android (\d+)/.exec(lowercase(($window.navigator || {}).userAgent)) || [])[1]), boxee = /Boxee/i.test(($window.navigator || {}).userAgent), document = $document[0] || {}, vendorPrefix, vendorRegex = /^(Moz|webkit|ms)(?=[A-Z])/, bodyStyle = document.body && document.body.style, transitions = false, animations = false, match; if (bodyStyle) { for (var prop in bodyStyle) { if (match = vendorRegex.exec(prop)) { vendorPrefix = match[0]; vendorPrefix = vendorPrefix[0].toUpperCase() + vendorPrefix.substr(1); break; } } if (!vendorPrefix) { vendorPrefix = ('WebkitOpacity' in bodyStyle) && 'webkit'; } transitions = !!(('transition' in bodyStyle) || (vendorPrefix + 'Transition' in bodyStyle)); animations = !!(('animation' in bodyStyle) || (vendorPrefix + 'Animation' in bodyStyle)); if (android && (!transitions || !animations)) { transitions = isString(bodyStyle.webkitTransition); animations = isString(bodyStyle.webkitAnimation); } } return { // Android has history.pushState, but it does not update location correctly // so let's not use the history API at all. // http://code.google.com/p/android/issues/detail?id=17471 // https://github.com/angular/angular.js/issues/904 // older webkit browser (533.9) on Boxee box has exactly the same problem as Android has // so let's not use the history API also // We are purposefully using `!(android < 4)` to cover the case when `android` is undefined // jshint -W018 history: !!(hasHistoryPushState && !(android < 4) && !boxee), // jshint +W018 hasEvent: function(event) { // IE9 implements 'input' event it's so fubared that we rather pretend that it doesn't have // it. In particular the event is not fired when backspace or delete key are pressed or // when cut operation is performed. // IE10+ implements 'input' event but it erroneously fires under various situations, // e.g. when placeholder changes, or a form is focused. if (event === 'input' && msie <= 11) return false; if (isUndefined(eventSupport[event])) { var divElm = document.createElement('div'); eventSupport[event] = 'on' + event in divElm; } return eventSupport[event]; }, csp: csp(), vendorPrefix: vendorPrefix, transitions: transitions, animations: animations, android: android }; }]; } var $templateRequestMinErr = minErr('$compile'); /** * @ngdoc provider * @name $templateRequestProvider * @description * Used to configure the options passed to the {@link $http} service when making a template request. * * For example, it can be used for specifying the "Accept" header that is sent to the server, when * requesting a template. */ function $TemplateRequestProvider() { var httpOptions; /** * @ngdoc method * @name $templateRequestProvider#httpOptions * @description * The options to be passed to the {@link $http} service when making the request. * You can use this to override options such as the "Accept" header for template requests. * * The {@link $templateRequest} will set the `cache` and the `transformResponse` properties of the * options if not overridden here. * * @param {string=} value new value for the {@link $http} options. * @returns {string|self} Returns the {@link $http} options when used as getter and self if used as setter. */ this.httpOptions = function(val) { if (val) { httpOptions = val; return this; } return httpOptions; }; /** * @ngdoc service * @name $templateRequest * * @description * The `$templateRequest` service runs security checks then downloads the provided template using * `$http` and, upon success, stores the contents inside of `$templateCache`. If the HTTP request * fails or the response data of the HTTP request is empty, a `$compile` error will be thrown (the * exception can be thwarted by setting the 2nd parameter of the function to true). Note that the * contents of `$templateCache` are trusted, so the call to `$sce.getTrustedUrl(tpl)` is omitted * when `tpl` is of type string and `$templateCache` has the matching entry. * * If you want to pass custom options to the `$http` service, such as setting the Accept header you * can configure this via {@link $templateRequestProvider#httpOptions}. * * @param {string|TrustedResourceUrl} tpl The HTTP request template URL * @param {boolean=} ignoreRequestError Whether or not to ignore the exception when the request fails or the template is empty * * @return {Promise} a promise for the HTTP response data of the given URL. * * @property {number} totalPendingRequests total amount of pending template requests being downloaded. */ this.$get = ['$templateCache', '$http', '$q', '$sce', function($templateCache, $http, $q, $sce) { function handleRequestFn(tpl, ignoreRequestError) { handleRequestFn.totalPendingRequests++; // We consider the template cache holds only trusted templates, so // there's no need to go through whitelisting again for keys that already // are included in there. This also makes Angular accept any script // directive, no matter its name. However, we still need to unwrap trusted // types. if (!isString(tpl) || isUndefined($templateCache.get(tpl))) { tpl = $sce.getTrustedResourceUrl(tpl); } var transformResponse = $http.defaults && $http.defaults.transformResponse; if (isArray(transformResponse)) { transformResponse = transformResponse.filter(function(transformer) { return transformer !== defaultHttpResponseTransform; }); } else if (transformResponse === defaultHttpResponseTransform) { transformResponse = null; } return $http.get(tpl, extend({ cache: $templateCache, transformResponse: transformResponse }, httpOptions)) ['finally'](function() { handleRequestFn.totalPendingRequests--; }) .then(function(response) { $templateCache.put(tpl, response.data); return response.data; }, handleError); function handleError(resp) { if (!ignoreRequestError) { throw $templateRequestMinErr('tpload', 'Failed to load template: {0} (HTTP status: {1} {2})', tpl, resp.status, resp.statusText); } return $q.reject(resp); } } handleRequestFn.totalPendingRequests = 0; return handleRequestFn; }]; } function $$TestabilityProvider() { this.$get = ['$rootScope', '$browser', '$location', function($rootScope, $browser, $location) { /** * @name $testability * * @description * The private $$testability service provides a collection of methods for use when debugging * or by automated test and debugging tools. */ var testability = {}; /** * @name $$testability#findBindings * * @description * Returns an array of elements that are bound (via ng-bind or {{}}) * to expressions matching the input. * * @param {Element} element The element root to search from. * @param {string} expression The binding expression to match. * @param {boolean} opt_exactMatch If true, only returns exact matches * for the expression. Filters and whitespace are ignored. */ testability.findBindings = function(element, expression, opt_exactMatch) { var bindings = element.getElementsByClassName('ng-binding'); var matches = []; forEach(bindings, function(binding) { var dataBinding = angular.element(binding).data('$binding'); if (dataBinding) { forEach(dataBinding, function(bindingName) { if (opt_exactMatch) { var matcher = new RegExp('(^|\\s)' + escapeForRegexp(expression) + '(\\s|\\||$)'); if (matcher.test(bindingName)) { matches.push(binding); } } else { if (bindingName.indexOf(expression) != -1) { matches.push(binding); } } }); } }); return matches; }; /** * @name $$testability#findModels * * @description * Returns an array of elements that are two-way found via ng-model to * expressions matching the input. * * @param {Element} element The element root to search from. * @param {string} expression The model expression to match. * @param {boolean} opt_exactMatch If true, only returns exact matches * for the expression. */ testability.findModels = function(element, expression, opt_exactMatch) { var prefixes = ['ng-', 'data-ng-', 'ng\\:']; for (var p = 0; p < prefixes.length; ++p) { var attributeEquals = opt_exactMatch ? '=' : '*='; var selector = '[' + prefixes[p] + 'model' + attributeEquals + '"' + expression + '"]'; var elements = element.querySelectorAll(selector); if (elements.length) { return elements; } } }; /** * @name $$testability#getLocation * * @description * Shortcut for getting the location in a browser agnostic way. Returns * the path, search, and hash. (e.g. /path?a=b#hash) */ testability.getLocation = function() { return $location.url(); }; /** * @name $$testability#setLocation * * @description * Shortcut for navigating to a location without doing a full page reload. * * @param {string} url The location url (path, search and hash, * e.g. /path?a=b#hash) to go to. */ testability.setLocation = function(url) { if (url !== $location.url()) { $location.url(url); $rootScope.$digest(); } }; /** * @name $$testability#whenStable * * @description * Calls the callback when $timeout and $http requests are completed. * * @param {function} callback */ testability.whenStable = function(callback) { $browser.notifyWhenNoOutstandingRequests(callback); }; return testability; }]; } function $TimeoutProvider() { this.$get = ['$rootScope', '$browser', '$q', '$$q', '$exceptionHandler', function($rootScope, $browser, $q, $$q, $exceptionHandler) { var deferreds = {}; /** * @ngdoc service * @name $timeout * * @description * Angular's wrapper for `window.setTimeout`. The `fn` function is wrapped into a try/catch * block and delegates any exceptions to * {@link ng.$exceptionHandler $exceptionHandler} service. * * The return value of calling `$timeout` is a promise, which will be resolved when * the delay has passed and the timeout function, if provided, is executed. * * To cancel a timeout request, call `$timeout.cancel(promise)`. * * In tests you can use {@link ngMock.$timeout `$timeout.flush()`} to * synchronously flush the queue of deferred functions. * * If you only want a promise that will be resolved after some specified delay * then you can call `$timeout` without the `fn` function. * * @param {function()=} fn A function, whose execution should be delayed. * @param {number=} [delay=0] Delay in milliseconds. * @param {boolean=} [invokeApply=true] If set to `false` skips model dirty checking, otherwise * will invoke `fn` within the {@link ng.$rootScope.Scope#$apply $apply} block. * @param {...*=} Pass additional parameters to the executed function. * @returns {Promise} Promise that will be resolved when the timeout is reached. The promise * will be resolved with the return value of the `fn` function. * */ function timeout(fn, delay, invokeApply) { if (!isFunction(fn)) { invokeApply = delay; delay = fn; fn = noop; } var args = sliceArgs(arguments, 3), skipApply = (isDefined(invokeApply) && !invokeApply), deferred = (skipApply ? $$q : $q).defer(), promise = deferred.promise, timeoutId; timeoutId = $browser.defer(function() { try { deferred.resolve(fn.apply(null, args)); } catch (e) { deferred.reject(e); $exceptionHandler(e); } finally { delete deferreds[promise.$$timeoutId]; } if (!skipApply) $rootScope.$apply(); }, delay); promise.$$timeoutId = timeoutId; deferreds[timeoutId] = deferred; return promise; } /** * @ngdoc method * @name $timeout#cancel * * @description * Cancels a task associated with the `promise`. As a result of this, the promise will be * resolved with a rejection. * * @param {Promise=} promise Promise returned by the `$timeout` function. * @returns {boolean} Returns `true` if the task hasn't executed yet and was successfully * canceled. */ timeout.cancel = function(promise) { if (promise && promise.$$timeoutId in deferreds) { deferreds[promise.$$timeoutId].reject('canceled'); delete deferreds[promise.$$timeoutId]; return $browser.defer.cancel(promise.$$timeoutId); } return false; }; return timeout; }]; } // NOTE: The usage of window and document instead of $window and $document here is // deliberate. This service depends on the specific behavior of anchor nodes created by the // browser (resolving and parsing URLs) that is unlikely to be provided by mock objects and // cause us to break tests. In addition, when the browser resolves a URL for XHR, it // doesn't know about mocked locations and resolves URLs to the real document - which is // exactly the behavior needed here. There is little value is mocking these out for this // service. var urlParsingNode = window.document.createElement("a"); var originUrl = urlResolve(window.location.href); /** * * Implementation Notes for non-IE browsers * ---------------------------------------- * Assigning a URL to the href property of an anchor DOM node, even one attached to the DOM, * results both in the normalizing and parsing of the URL. Normalizing means that a relative * URL will be resolved into an absolute URL in the context of the application document. * Parsing means that the anchor node's host, hostname, protocol, port, pathname and related * properties are all populated to reflect the normalized URL. This approach has wide * compatibility - Safari 1+, Mozilla 1+, Opera 7+,e etc. See * http://www.aptana.com/reference/html/api/HTMLAnchorElement.html * * Implementation Notes for IE * --------------------------- * IE <= 10 normalizes the URL when assigned to the anchor node similar to the other * browsers. However, the parsed components will not be set if the URL assigned did not specify * them. (e.g. if you assign a.href = "foo", then a.protocol, a.host, etc. will be empty.) We * work around that by performing the parsing in a 2nd step by taking a previously normalized * URL (e.g. by assigning to a.href) and assigning it a.href again. This correctly populates the * properties such as protocol, hostname, port, etc. * * References: * http://developer.mozilla.org/en-US/docs/Web/API/HTMLAnchorElement * http://www.aptana.com/reference/html/api/HTMLAnchorElement.html * http://url.spec.whatwg.org/#urlutils * https://github.com/angular/angular.js/pull/2902 * http://james.padolsey.com/javascript/parsing-urls-with-the-dom/ * * @kind function * @param {string} url The URL to be parsed. * @description Normalizes and parses a URL. * @returns {object} Returns the normalized URL as a dictionary. * * | member name | Description | * |---------------|----------------| * | href | A normalized version of the provided URL if it was not an absolute URL | * | protocol | The protocol including the trailing colon | * | host | The host and port (if the port is non-default) of the normalizedUrl | * | search | The search params, minus the question mark | * | hash | The hash string, minus the hash symbol * | hostname | The hostname * | port | The port, without ":" * | pathname | The pathname, beginning with "/" * */ function urlResolve(url) { var href = url; if (msie) { // Normalize before parse. Refer Implementation Notes on why this is // done in two steps on IE. urlParsingNode.setAttribute("href", href); href = urlParsingNode.href; } urlParsingNode.setAttribute('href', href); // urlParsingNode provides the UrlUtils interface - http://url.spec.whatwg.org/#urlutils return { href: urlParsingNode.href, protocol: urlParsingNode.protocol ? urlParsingNode.protocol.replace(/:$/, '') : '', host: urlParsingNode.host, search: urlParsingNode.search ? urlParsingNode.search.replace(/^\?/, '') : '', hash: urlParsingNode.hash ? urlParsingNode.hash.replace(/^#/, '') : '', hostname: urlParsingNode.hostname, port: urlParsingNode.port, pathname: (urlParsingNode.pathname.charAt(0) === '/') ? urlParsingNode.pathname : '/' + urlParsingNode.pathname }; } /** * Parse a request URL and determine whether this is a same-origin request as the application document. * * @param {string|object} requestUrl The url of the request as a string that will be resolved * or a parsed URL object. * @returns {boolean} Whether the request is for the same origin as the application document. */ function urlIsSameOrigin(requestUrl) { var parsed = (isString(requestUrl)) ? urlResolve(requestUrl) : requestUrl; return (parsed.protocol === originUrl.protocol && parsed.host === originUrl.host); } /** * @ngdoc service * @name $window * * @description * A reference to the browser's `window` object. While `window` * is globally available in JavaScript, it causes testability problems, because * it is a global variable. In angular we always refer to it through the * `$window` service, so it may be overridden, removed or mocked for testing. * * Expressions, like the one defined for the `ngClick` directive in the example * below, are evaluated with respect to the current scope. Therefore, there is * no risk of inadvertently coding in a dependency on a global value in such an * expression. * * @example
it('should display the greeting in the input box', function() { element(by.model('greeting')).sendKeys('Hello, E2E Tests'); // If we click the button it will block the test runner // element(':button').click(); }); */ function $WindowProvider() { this.$get = valueFn(window); } /** * @name $$cookieReader * @requires $document * * @description * This is a private service for reading cookies used by $http and ngCookies * * @return {Object} a key/value map of the current cookies */ function $$CookieReader($document) { var rawDocument = $document[0] || {}; var lastCookies = {}; var lastCookieString = ''; function safeDecodeURIComponent(str) { try { return decodeURIComponent(str); } catch (e) { return str; } } return function() { var cookieArray, cookie, i, index, name; var currentCookieString = rawDocument.cookie || ''; if (currentCookieString !== lastCookieString) { lastCookieString = currentCookieString; cookieArray = lastCookieString.split('; '); lastCookies = {}; for (i = 0; i < cookieArray.length; i++) { cookie = cookieArray[i]; index = cookie.indexOf('='); if (index > 0) { //ignore nameless cookies name = safeDecodeURIComponent(cookie.substring(0, index)); // the first value that is seen for a cookie is the most // specific one. values for the same cookie name that // follow are for less specific paths. if (isUndefined(lastCookies[name])) { lastCookies[name] = safeDecodeURIComponent(cookie.substring(index + 1)); } } } } return lastCookies; }; } $$CookieReader.$inject = ['$document']; function $$CookieReaderProvider() { this.$get = $$CookieReader; } /* global currencyFilter: true, dateFilter: true, filterFilter: true, jsonFilter: true, limitToFilter: true, lowercaseFilter: true, numberFilter: true, orderByFilter: true, uppercaseFilter: true, */ /** * @ngdoc provider * @name $filterProvider * @description * * Filters are just functions which transform input to an output. However filters need to be * Dependency Injected. To achieve this a filter definition consists of a factory function which is * annotated with dependencies and is responsible for creating a filter function. * *
* **Note:** Filter names must be valid angular {@link expression} identifiers, such as `uppercase` or `orderBy`. * Names with special characters, such as hyphens and dots, are not allowed. If you wish to namespace * your filters, then you can use capitalization (`myappSubsectionFilterx`) or underscores * (`myapp_subsection_filterx`). *
* * ```js * // Filter registration * function MyModule($provide, $filterProvider) { * // create a service to demonstrate injection (not always needed) * $provide.value('greet', function(name){ * return 'Hello ' + name + '!'; * }); * * // register a filter factory which uses the * // greet service to demonstrate DI. * $filterProvider.register('greet', function(greet){ * // return the filter function which uses the greet service * // to generate salutation * return function(text) { * // filters need to be forgiving so check input validity * return text && greet(text) || text; * }; * }); * } * ``` * * The filter function is registered with the `$injector` under the filter name suffix with * `Filter`. * * ```js * it('should be the same instance', inject( * function($filterProvider) { * $filterProvider.register('reverse', function(){ * return ...; * }); * }, * function($filter, reverseFilter) { * expect($filter('reverse')).toBe(reverseFilter); * }); * ``` * * * For more information about how angular filters work, and how to create your own filters, see * {@link guide/filter Filters} in the Angular Developer Guide. */ /** * @ngdoc service * @name $filter * @kind function * @description * Filters are used for formatting data displayed to the user. * * The general syntax in templates is as follows: * * {{ expression [| filter_name[:parameter_value] ... ] }} * * @param {String} name Name of the filter function to retrieve * @return {Function} the filter function * @example

{{ originalText }}

{{ filteredText }}

 angular.module('filterExample', []) .controller('MainCtrl', function($scope, $filter) { $scope.originalText = 'hello'; $scope.filteredText = $filter('uppercase')($scope.originalText); }); */ $FilterProvider.$inject = ['$provide']; function $FilterProvider($provide) { var suffix = 'Filter'; /** * @ngdoc method * @name $filterProvider#register * @param {string|Object} name Name of the filter function, or an object map of filters where * the keys are the filter names and the values are the filter factories. * *
* **Note:** Filter names must be valid angular {@link expression} identifiers, such as `uppercase` or `orderBy`. * Names with special characters, such as hyphens and dots, are not allowed. If you wish to namespace * your filters, then you can use capitalization (`myappSubsectionFilterx`) or underscores * (`myapp_subsection_filterx`). *
* @param {Function} factory If the first argument was a string, a factory function for the filter to be registered. * @returns {Object} Registered filter instance, or if a map of filters was provided then a map * of the registered filter instances. */ function register(name, factory) { if (isObject(name)) { var filters = {}; forEach(name, function(filter, key) { filters[key] = register(key, filter); }); return filters; } else { return $provide.factory(name + suffix, factory); } } this.register = register; this.$get = ['$injector', function($injector) { return function(name) { return $injector.get(name + suffix); }; }]; //////////////////////////////////////// /* global currencyFilter: false, dateFilter: false, filterFilter: false, jsonFilter: false, limitToFilter: false, lowercaseFilter: false, numberFilter: false, orderByFilter: false, uppercaseFilter: false, */ register('currency', currencyFilter); register('date', dateFilter); register('filter', filterFilter); register('json', jsonFilter); register('limitTo', limitToFilter); register('lowercase', lowercaseFilter); register('number', numberFilter); register('orderBy', orderByFilter); register('uppercase', uppercaseFilter); } /** * @ngdoc filter * @name filter * @kind function * * @description * Selects a subset of items from `array` and returns it as a new array. * * @param {Array} array The source array. * @param {string|Object|function()} expression The predicate to be used for selecting items from * `array`. * * Can be one of: * * - `string`: The string is used for matching against the contents of the `array`. All strings or * objects with string properties in `array` that match this string will be returned. This also * applies to nested object properties. * The predicate can be negated by prefixing the string with `!`. * * - `Object`: A pattern object can be used to filter specific properties on objects contained * by `array`. For example `{name:"M", phone:"1"}` predicate will return an array of items * which have property `name` containing "M" and property `phone` containing "1". A special * property name (`$` by default) can be used (e.g. as in `{$: "text"}`) to accept a match * against any property of the object or its nested object properties. That's equivalent to the * simple substring match with a `string` as described above. The special property name can be * overwritten, using the `anyPropertyKey` parameter. * The predicate can be negated by prefixing the string with `!`. * For example `{name: "!M"}` predicate will return an array of items which have property `name` * not containing "M". * * Note that a named property will match properties on the same level only, while the special * `$` property will match properties on the same level or deeper. E.g. an array item like * `{name: {first: 'John', last: 'Doe'}}` will **not** be matched by `{name: 'John'}`, but * **will** be matched by `{$: 'John'}`. * * - `function(value, index, array)`: A predicate function can be used to write arbitrary filters. * The function is called for each element of the array, with the element, its index, and * the entire array itself as arguments. * * The final result is an array of those elements that the predicate returned true for. * * @param {function(actual, expected)|true|undefined} comparator Comparator which is used in * determining if the expected value (from the filter expression) and actual value (from * the object in the array) should be considered a match. * * Can be one of: * * - `function(actual, expected)`: * The function will be given the object value and the predicate value to compare and * should return true if both values should be considered equal. * * - `true`: A shorthand for `function(actual, expected) { return angular.equals(actual, expected)}`. * This is essentially strict comparison of expected and actual. * * - `false|undefined`: A short hand for a function which will look for a substring match in case * insensitive way. * * Primitive values are converted to strings. Objects are not compared against primitives, * unless they have a custom `toString` method (e.g. `Date` objects). * * @param {string=} anyPropertyKey The special property name that matches against any property. * By default `$`. * * @example
NamePhone
{{friend.name}} {{friend.phone}}




NamePhone
{{friendObj.name}} {{friendObj.phone}}
var expectFriendNames = function(expectedNames, key) { element.all(by.repeater(key + ' in friends').column(key + '.name')).then(function(arr) { arr.forEach(function(wd, i) { expect(wd.getText()).toMatch(expectedNames[i]); }); }); }; it('should search across all fields when filtering with a string', function() { var searchText = element(by.model('searchText')); searchText.clear(); searchText.sendKeys('m'); expectFriendNames(['Mary', 'Mike', 'Adam'], 'friend'); searchText.clear(); searchText.sendKeys('76'); expectFriendNames(['John', 'Julie'], 'friend'); }); it('should search in specific fields when filtering with a predicate object', function() { var searchAny = element(by.model('search.$')); searchAny.clear(); searchAny.sendKeys('i'); expectFriendNames(['Mary', 'Mike', 'Julie', 'Juliette'], 'friendObj'); }); it('should use a equal comparison when comparator is true', function() { var searchName = element(by.model('search.name')); var strict = element(by.model('strict')); searchName.clear(); searchName.sendKeys('Julie'); strict.click(); expectFriendNames(['Julie'], 'friendObj'); }); */ function filterFilter() { return function(array, expression, comparator, anyPropertyKey) { if (!isArrayLike(array)) { if (array == null) { return array; } else { throw minErr('filter')('notarray', 'Expected array but received: {0}', array); } } anyPropertyKey = anyPropertyKey || '$'; var expressionType = getTypeForFilter(expression); var predicateFn; var matchAgainstAnyProp; switch (expressionType) { case 'function': predicateFn = expression; break; case 'boolean': case 'null': case 'number': case 'string': matchAgainstAnyProp = true; //jshint -W086 case 'object': //jshint +W086 predicateFn = createPredicateFn(expression, comparator, anyPropertyKey, matchAgainstAnyProp); break; default: return array; } return Array.prototype.filter.call(array, predicateFn); }; } // Helper functions for `filterFilter` function createPredicateFn(expression, comparator, anyPropertyKey, matchAgainstAnyProp) { var shouldMatchPrimitives = isObject(expression) && (anyPropertyKey in expression); var predicateFn; if (comparator === true) { comparator = equals; } else if (!isFunction(comparator)) { comparator = function(actual, expected) { if (isUndefined(actual)) { // No substring matching against `undefined` return false; } if ((actual === null) || (expected === null)) { // No substring matching against `null`; only match against `null` return actual === expected; } if (isObject(expected) || (isObject(actual) && !hasCustomToString(actual))) { // Should not compare primitives against objects, unless they have custom `toString` method return false; } actual = lowercase('' + actual); expected = lowercase('' + expected); return actual.indexOf(expected) !== -1; }; } predicateFn = function(item) { if (shouldMatchPrimitives && !isObject(item)) { return deepCompare(item, expression[anyPropertyKey], comparator, anyPropertyKey, false); } return deepCompare(item, expression, comparator, anyPropertyKey, matchAgainstAnyProp); }; return predicateFn; } function deepCompare(actual, expected, comparator, anyPropertyKey, matchAgainstAnyProp, dontMatchWholeObject) { var actualType = getTypeForFilter(actual); var expectedType = getTypeForFilter(expected); if ((expectedType === 'string') && (expected.charAt(0) === '!')) { return !deepCompare(actual, expected.substring(1), comparator, anyPropertyKey, matchAgainstAnyProp); } else if (isArray(actual)) { // In case `actual` is an array, consider it a match // if ANY of it's items matches `expected` return actual.some(function(item) { return deepCompare(item, expected, comparator, anyPropertyKey, matchAgainstAnyProp); }); } switch (actualType) { case 'object': var key; if (matchAgainstAnyProp) { for (key in actual) { if ((key.charAt(0) !== '$') && deepCompare(actual[key], expected, comparator, anyPropertyKey, true)) { return true; } } return dontMatchWholeObject ? false : deepCompare(actual, expected, comparator, anyPropertyKey, false); } else if (expectedType === 'object') { for (key in expected) { var expectedVal = expected[key]; if (isFunction(expectedVal) || isUndefined(expectedVal)) { continue; } var matchAnyProperty = key === anyPropertyKey; var actualVal = matchAnyProperty ? actual : actual[key]; if (!deepCompare(actualVal, expectedVal, comparator, anyPropertyKey, matchAnyProperty, matchAnyProperty)) { return false; } } return true; } else { return comparator(actual, expected); } break; case 'function': return false; default: return comparator(actual, expected); } } // Used for easily differentiating between `null` and actual `object` function getTypeForFilter(val) { return (val === null) ? 'null' : typeof val; } var MAX_DIGITS = 22; var DECIMAL_SEP = '.'; var ZERO_CHAR = '0'; /** * @ngdoc filter * @name currency * @kind function * * @description * Formats a number as a currency (ie $1,234.56). When no currency symbol is provided, default * symbol for current locale is used. * * @param {number} amount Input to filter. * @param {string=} symbol Currency symbol or identifier to be displayed. * @param {number=} fractionSize Number of decimal places to round the amount to, defaults to default max fraction size for current locale * @returns {string} Formatted number. * * * @example

default currency symbol ($): {{amount | currency}}
custom currency identifier (USD$): {{amount | currency:"USD$"}} no fractions (0): {{amount | currency:"USD$":0}}
it('should init with 1234.56', function() { expect(element(by.id('currency-default')).getText()).toBe('$1,234.56'); expect(element(by.id('currency-custom')).getText()).toBe('USD$1,234.56'); expect(element(by.id('currency-no-fractions')).getText()).toBe('USD$1,235'); }); it('should update', function() { if (browser.params.browser == 'safari') { // Safari does not understand the minus key. See // https://github.com/angular/protractor/issues/481 return; } element(by.model('amount')).clear(); element(by.model('amount')).sendKeys('-1234'); expect(element(by.id('currency-default')).getText()).toBe('-$1,234.00'); expect(element(by.id('currency-custom')).getText()).toBe('-USD$1,234.00'); expect(element(by.id('currency-no-fractions')).getText()).toBe('-USD$1,234'); }); */ currencyFilter.$inject = ['$locale']; function currencyFilter($locale) { var formats = $locale.NUMBER_FORMATS; return function(amount, currencySymbol, fractionSize) { if (isUndefined(currencySymbol)) { currencySymbol = formats.CURRENCY_SYM; } if (isUndefined(fractionSize)) { fractionSize = formats.PATTERNS[1].maxFrac; } // if null or undefined pass it through return (amount == null) ? amount : formatNumber(amount, formats.PATTERNS[1], formats.GROUP_SEP, formats.DECIMAL_SEP, fractionSize). replace(/\u00A4/g, currencySymbol); }; } /** * @ngdoc filter * @name number * @kind function * * @description * Formats a number as text. * * If the input is null or undefined, it will just be returned. * If the input is infinite (Infinity or -Infinity), the Infinity symbol '∞' or '-∞' is returned, respectively. * If the input is not a number an empty string is returned. * * * @param {number|string} number Number to format. * @param {(number|string)=} fractionSize Number of decimal places to round the number to. * If this is not provided then the fraction size is computed from the current locale's number * formatting pattern. In the case of the default locale, it will be 3. * @returns {string} Number rounded to `fractionSize` appropriately formatted based on the current * locale (e.g., in the en_US locale it will have "." as the decimal separator and * include "," group separators after each third digit). * * @example

Default formatting: {{val | number}}
No fractions: {{val | number:0}}
Negative number: {{-val | number:4}}
it('should format numbers', function() { expect(element(by.id('number-default')).getText()).toBe('1,234.568'); expect(element(by.binding('val | number:0')).getText()).toBe('1,235'); expect(element(by.binding('-val | number:4')).getText()).toBe('-1,234.5679'); }); it('should update', function() { element(by.model('val')).clear(); element(by.model('val')).sendKeys('3374.333'); expect(element(by.id('number-default')).getText()).toBe('3,374.333'); expect(element(by.binding('val | number:0')).getText()).toBe('3,374'); expect(element(by.binding('-val | number:4')).getText()).toBe('-3,374.3330'); }); */ numberFilter.$inject = ['$locale']; function numberFilter($locale) { var formats = $locale.NUMBER_FORMATS; return function(number, fractionSize) { // if null or undefined pass it through return (number == null) ? number : formatNumber(number, formats.PATTERNS[0], formats.GROUP_SEP, formats.DECIMAL_SEP, fractionSize); }; } /** * Parse a number (as a string) into three components that can be used * for formatting the number. * * (Significant bits of this parse algorithm came from https://github.com/MikeMcl/big.js/) * * @param {string} numStr The number to parse * @return {object} An object describing this number, containing the following keys: * - d : an array of digits containing leading zeros as necessary * - i : the number of the digits in `d` that are to the left of the decimal point * - e : the exponent for numbers that would need more than `MAX_DIGITS` digits in `d` * */ function parse(numStr) { var exponent = 0, digits, numberOfIntegerDigits; var i, j, zeros; // Decimal point? if ((numberOfIntegerDigits = numStr.indexOf(DECIMAL_SEP)) > -1) { numStr = numStr.replace(DECIMAL_SEP, ''); } // Exponential form? if ((i = numStr.search(/e/i)) > 0) { // Work out the exponent. if (numberOfIntegerDigits < 0) numberOfIntegerDigits = i; numberOfIntegerDigits += +numStr.slice(i + 1); numStr = numStr.substring(0, i); } else if (numberOfIntegerDigits < 0) { // There was no decimal point or exponent so it is an integer. numberOfIntegerDigits = numStr.length; } // Count the number of leading zeros. for (i = 0; numStr.charAt(i) == ZERO_CHAR; i++) {/* jshint noempty: false */} if (i == (zeros = numStr.length)) { // The digits are all zero. digits = [0]; numberOfIntegerDigits = 1; } else { // Count the number of trailing zeros zeros--; while (numStr.charAt(zeros) == ZERO_CHAR) zeros--; // Trailing zeros are insignificant so ignore them numberOfIntegerDigits -= i; digits = []; // Convert string to array of digits without leading/trailing zeros. for (j = 0; i <= zeros; i++, j++) { digits[j] = +numStr.charAt(i); } } // If the number overflows the maximum allowed digits then use an exponent. if (numberOfIntegerDigits > MAX_DIGITS) { digits = digits.splice(0, MAX_DIGITS - 1); exponent = numberOfIntegerDigits - 1; numberOfIntegerDigits = 1; } return { d: digits, e: exponent, i: numberOfIntegerDigits }; } /** * Round the parsed number to the specified number of decimal places * This function changed the parsedNumber in-place */ function roundNumber(parsedNumber, fractionSize, minFrac, maxFrac) { var digits = parsedNumber.d; var fractionLen = digits.length - parsedNumber.i; // determine fractionSize if it is not specified; `+fractionSize` converts it to a number fractionSize = (isUndefined(fractionSize)) ? Math.min(Math.max(minFrac, fractionLen), maxFrac) : +fractionSize; // The index of the digit to where rounding is to occur var roundAt = fractionSize + parsedNumber.i; var digit = digits[roundAt]; if (roundAt > 0) { // Drop fractional digits beyond `roundAt` digits.splice(Math.max(parsedNumber.i, roundAt)); // Set non-fractional digits beyond `roundAt` to 0 for (var j = roundAt; j < digits.length; j++) { digits[j] = 0; } } else { // We rounded to zero so reset the parsedNumber fractionLen = Math.max(0, fractionLen); parsedNumber.i = 1; digits.length = Math.max(1, roundAt = fractionSize + 1); digits[0] = 0; for (var i = 1; i < roundAt; i++) digits[i] = 0; } if (digit >= 5) { if (roundAt - 1 < 0) { for (var k = 0; k > roundAt; k--) { digits.unshift(0); parsedNumber.i++; } digits.unshift(1); parsedNumber.i++; } else { digits[roundAt - 1]++; } } // Pad out with zeros to get the required fraction length for (; fractionLen < Math.max(0, fractionSize); fractionLen++) digits.push(0); // Do any carrying, e.g. a digit was rounded up to 10 var carry = digits.reduceRight(function(carry, d, i, digits) { d = d + carry; digits[i] = d % 10; return Math.floor(d / 10); }, 0); if (carry) { digits.unshift(carry); parsedNumber.i++; } } /** * Format a number into a string * @param {number} number The number to format * @param {{ * minFrac, // the minimum number of digits required in the fraction part of the number * maxFrac, // the maximum number of digits required in the fraction part of the number * gSize, // number of digits in each group of separated digits * lgSize, // number of digits in the last group of digits before the decimal separator * negPre, // the string to go in front of a negative number (e.g. `-` or `(`)) * posPre, // the string to go in front of a positive number * negSuf, // the string to go after a negative number (e.g. `)`) * posSuf // the string to go after a positive number * }} pattern * @param {string} groupSep The string to separate groups of number (e.g. `,`) * @param {string} decimalSep The string to act as the decimal separator (e.g. `.`) * @param {[type]} fractionSize The size of the fractional part of the number * @return {string} The number formatted as a string */ function formatNumber(number, pattern, groupSep, decimalSep, fractionSize) { if (!(isString(number) || isNumber(number)) || isNaN(number)) return ''; var isInfinity = !isFinite(number); var isZero = false; var numStr = Math.abs(number) + '', formattedText = '', parsedNumber; if (isInfinity) { formattedText = '\u221e'; } else { parsedNumber = parse(numStr); roundNumber(parsedNumber, fractionSize, pattern.minFrac, pattern.maxFrac); var digits = parsedNumber.d; var integerLen = parsedNumber.i; var exponent = parsedNumber.e; var decimals = []; isZero = digits.reduce(function(isZero, d) { return isZero && !d; }, true); // pad zeros for small numbers while (integerLen < 0) { digits.unshift(0); integerLen++; } // extract decimals digits if (integerLen > 0) { decimals = digits.splice(integerLen, digits.length); } else { decimals = digits; digits = [0]; } // format the integer digits with grouping separators var groups = []; if (digits.length >= pattern.lgSize) { groups.unshift(digits.splice(-pattern.lgSize, digits.length).join('')); } while (digits.length > pattern.gSize) { groups.unshift(digits.splice(-pattern.gSize, digits.length).join('')); } if (digits.length) { groups.unshift(digits.join('')); } formattedText = groups.join(groupSep); // append the decimal digits if (decimals.length) { formattedText += decimalSep + decimals.join(''); } if (exponent) { formattedText += 'e+' + exponent; } } if (number < 0 && !isZero) { return pattern.negPre + formattedText + pattern.negSuf; } else { return pattern.posPre + formattedText + pattern.posSuf; } } function padNumber(num, digits, trim, negWrap) { var neg = ''; if (num < 0 || (negWrap && num <= 0)) { if (negWrap) { num = -num + 1; } else { num = -num; neg = '-'; } } num = '' + num; while (num.length < digits) num = ZERO_CHAR + num; if (trim) { num = num.substr(num.length - digits); } return neg + num; } function dateGetter(name, size, offset, trim, negWrap) { offset = offset || 0; return function(date) { var value = date['get' + name](); if (offset > 0 || value > -offset) { value += offset; } if (value === 0 && offset == -12) value = 12; return padNumber(value, size, trim, negWrap); }; } function dateStrGetter(name, shortForm, standAlone) { return function(date, formats) { var value = date['get' + name](); var propPrefix = (standAlone ? 'STANDALONE' : '') + (shortForm ? 'SHORT' : ''); var get = uppercase(propPrefix + name); return formats[get][value]; }; } function timeZoneGetter(date, formats, offset) { var zone = -1 * offset; var paddedZone = (zone >= 0) ? "+" : ""; paddedZone += padNumber(Math[zone > 0 ? 'floor' : 'ceil'](zone / 60), 2) + padNumber(Math.abs(zone % 60), 2); return paddedZone; } function getFirstThursdayOfYear(year) { // 0 = index of January var dayOfWeekOnFirst = (new Date(year, 0, 1)).getDay(); // 4 = index of Thursday (+1 to account for 1st = 5) // 11 = index of *next* Thursday (+1 account for 1st = 12) return new Date(year, 0, ((dayOfWeekOnFirst <= 4) ? 5 : 12) - dayOfWeekOnFirst); } function getThursdayThisWeek(datetime) { return new Date(datetime.getFullYear(), datetime.getMonth(), // 4 = index of Thursday datetime.getDate() + (4 - datetime.getDay())); } function weekGetter(size) { return function(date) { var firstThurs = getFirstThursdayOfYear(date.getFullYear()), thisThurs = getThursdayThisWeek(date); var diff = +thisThurs - +firstThurs, result = 1 + Math.round(diff / 6.048e8); // 6.048e8 ms per week return padNumber(result, size); }; } function ampmGetter(date, formats) { return date.getHours() < 12 ? formats.AMPMS[0] : formats.AMPMS[1]; } function eraGetter(date, formats) { return date.getFullYear() <= 0 ? formats.ERAS[0] : formats.ERAS[1]; } function longEraGetter(date, formats) { return date.getFullYear() <= 0 ? formats.ERANAMES[0] : formats.ERANAMES[1]; } var DATE_FORMATS = { yyyy: dateGetter('FullYear', 4, 0, false, true), yy: dateGetter('FullYear', 2, 0, true, true), y: dateGetter('FullYear', 1, 0, false, true), MMMM: dateStrGetter('Month'), MMM: dateStrGetter('Month', true), MM: dateGetter('Month', 2, 1), M: dateGetter('Month', 1, 1), LLLL: dateStrGetter('Month', false, true), dd: dateGetter('Date', 2), d: dateGetter('Date', 1), HH: dateGetter('Hours', 2), H: dateGetter('Hours', 1), hh: dateGetter('Hours', 2, -12), h: dateGetter('Hours', 1, -12), mm: dateGetter('Minutes', 2), m: dateGetter('Minutes', 1), ss: dateGetter('Seconds', 2), s: dateGetter('Seconds', 1), // while ISO 8601 requires fractions to be prefixed with `.` or `,` // we can be just safely rely on using `sss` since we currently don't support single or two digit fractions sss: dateGetter('Milliseconds', 3), EEEE: dateStrGetter('Day'), EEE: dateStrGetter('Day', true), a: ampmGetter, Z: timeZoneGetter, ww: weekGetter(2), w: weekGetter(1), G: eraGetter, GG: eraGetter, GGG: eraGetter, GGGG: longEraGetter }; var DATE_FORMATS_SPLIT = /((?:[^yMLdHhmsaZEwG']+)|(?:'(?:[^']|'')*')|(?:E+|y+|M+|L+|d+|H+|h+|m+|s+|a|Z|G+|w+))(.*)/, NUMBER_STRING = /^\-?\d+$/; /** * @ngdoc filter * @name date * @kind function * * @description * Formats `date` to a string based on the requested `format`. * * `format` string can be composed of the following elements: * * * `'yyyy'`: 4 digit representation of year (e.g. AD 1 => 0001, AD 2010 => 2010) * * `'yy'`: 2 digit representation of year, padded (00-99). (e.g. AD 2001 => 01, AD 2010 => 10) * * `'y'`: 1 digit representation of year, e.g. (AD 1 => 1, AD 199 => 199) * * `'MMMM'`: Month in year (January-December) * * `'MMM'`: Month in year (Jan-Dec) * * `'MM'`: Month in year, padded (01-12) * * `'M'`: Month in year (1-12) * * `'LLLL'`: Stand-alone month in year (January-December) * * `'dd'`: Day in month, padded (01-31) * * `'d'`: Day in month (1-31) * * `'EEEE'`: Day in Week,(Sunday-Saturday) * * `'EEE'`: Day in Week, (Sun-Sat) * * `'HH'`: Hour in day, padded (00-23) * * `'H'`: Hour in day (0-23) * * `'hh'`: Hour in AM/PM, padded (01-12) * * `'h'`: Hour in AM/PM, (1-12) * * `'mm'`: Minute in hour, padded (00-59) * * `'m'`: Minute in hour (0-59) * * `'ss'`: Second in minute, padded (00-59) * * `'s'`: Second in minute (0-59) * * `'sss'`: Millisecond in second, padded (000-999) * * `'a'`: AM/PM marker * * `'Z'`: 4 digit (+sign) representation of the timezone offset (-1200-+1200) * * `'ww'`: Week of year, padded (00-53). Week 01 is the week with the first Thursday of the year * * `'w'`: Week of year (0-53). Week 1 is the week with the first Thursday of the year * * `'G'`, `'GG'`, `'GGG'`: The abbreviated form of the era string (e.g. 'AD') * * `'GGGG'`: The long form of the era string (e.g. 'Anno Domini') * * `format` string can also be one of the following predefined * {@link guide/i18n localizable formats}: * * * `'medium'`: equivalent to `'MMM d, y h:mm:ss a'` for en_US locale * (e.g. Sep 3, 2010 12:05:08 PM) * * `'short'`: equivalent to `'M/d/yy h:mm a'` for en_US locale (e.g. 9/3/10 12:05 PM) * * `'fullDate'`: equivalent to `'EEEE, MMMM d, y'` for en_US locale * (e.g. Friday, September 3, 2010) * * `'longDate'`: equivalent to `'MMMM d, y'` for en_US locale (e.g. September 3, 2010) * * `'mediumDate'`: equivalent to `'MMM d, y'` for en_US locale (e.g. Sep 3, 2010) * * `'shortDate'`: equivalent to `'M/d/yy'` for en_US locale (e.g. 9/3/10) * * `'mediumTime'`: equivalent to `'h:mm:ss a'` for en_US locale (e.g. 12:05:08 PM) * * `'shortTime'`: equivalent to `'h:mm a'` for en_US locale (e.g. 12:05 PM) * * `format` string can contain literal values. These need to be escaped by surrounding with single quotes (e.g. * `"h 'in the morning'"`). In order to output a single quote, escape it - i.e., two single quotes in a sequence * (e.g. `"h 'o''clock'"`). * * @param {(Date|number|string)} date Date to format either as Date object, milliseconds (string or * number) or various ISO 8601 datetime string formats (e.g. yyyy-MM-ddTHH:mm:ss.sssZ and its * shorter versions like yyyy-MM-ddTHH:mmZ, yyyy-MM-dd or yyyyMMddTHHmmssZ). If no timezone is * specified in the string input, the time is considered to be in the local timezone. * @param {string=} format Formatting rules (see Description). If not specified, * `mediumDate` is used. * @param {string=} timezone Timezone to be used for formatting. It understands UTC/GMT and the * continental US time zone abbreviations, but for general use, use a time zone offset, for * example, `'+0430'` (4 hours, 30 minutes east of the Greenwich meridian) * If not specified, the timezone of the browser will be used. * @returns {string} Formatted string or the input if input is not recognized as date/millis. * * @example {{1288323623006 | date:'medium'}}: {{1288323623006 | date:'medium'}}
{{1288323623006 | date:'yyyy-MM-dd HH:mm:ss Z'}}: {{1288323623006 | date:'yyyy-MM-dd HH:mm:ss Z'}}
{{1288323623006 | date:'MM/dd/yyyy @ h:mma'}}: {{'1288323623006' | date:'MM/dd/yyyy @ h:mma'}}
{{1288323623006 | date:"MM/dd/yyyy 'at' h:mma"}}: {{'1288323623006' | date:"MM/dd/yyyy 'at' h:mma"}}
 it('should format date', function() { expect(element(by.binding("1288323623006 | date:'medium'")).getText()). toMatch(/Oct 2\d, 2010 \d{1,2}:\d{2}:\d{2} (AM|PM)/); expect(element(by.binding("1288323623006 | date:'yyyy-MM-dd HH:mm:ss Z'")).getText()). toMatch(/2010\-10\-2\d \d{2}:\d{2}:\d{2} (\-|\+)?\d{4}/); expect(element(by.binding("'1288323623006' | date:'MM/dd/yyyy @ h:mma'")).getText()). toMatch(/10\/2\d\/2010 @ \d{1,2}:\d{2}(AM|PM)/); expect(element(by.binding("'1288323623006' | date:\"MM/dd/yyyy 'at' h:mma\"")).getText()). toMatch(/10\/2\d\/2010 at \d{1,2}:\d{2}(AM|PM)/); }); */ dateFilter.$inject = ['$locale']; function dateFilter($locale) { var R_ISO8601_STR = /^(\d{4})-?(\d\d)-?(\d\d)(?:T(\d\d)(?::?(\d\d)(?::?(\d\d)(?:\.(\d+))?)?)?(Z|([+-])(\d\d):?(\d\d))?)?$/; // 1 2 3 4 5 6 7 8 9 10 11 function jsonStringToDate(string) { var match; if (match = string.match(R_ISO8601_STR)) { var date = new Date(0), tzHour = 0, tzMin = 0, dateSetter = match[8] ? date.setUTCFullYear : date.setFullYear, timeSetter = match[8] ? date.setUTCHours : date.setHours; if (match[9]) { tzHour = toInt(match[9] + match[10]); tzMin = toInt(match[9] + match[11]); } dateSetter.call(date, toInt(match[1]), toInt(match[2]) - 1, toInt(match[3])); var h = toInt(match[4] || 0) - tzHour; var m = toInt(match[5] || 0) - tzMin; var s = toInt(match[6] || 0); var ms = Math.round(parseFloat('0.' + (match[7] || 0)) * 1000); timeSetter.call(date, h, m, s, ms); return date; } return string; } return function(date, format, timezone) { var text = '', parts = [], fn, match; format = format || 'mediumDate'; format = $locale.DATETIME_FORMATS[format] || format; if (isString(date)) { date = NUMBER_STRING.test(date) ? toInt(date) : jsonStringToDate(date); } if (isNumber(date)) { date = new Date(date); } if (!isDate(date) || !isFinite(date.getTime())) { return date; } while (format) { match = DATE_FORMATS_SPLIT.exec(format); if (match) { parts = concat(parts, match, 1); format = parts.pop(); } else { parts.push(format); format = null; } } var dateTimezoneOffset = date.getTimezoneOffset(); if (timezone) { dateTimezoneOffset = timezoneToOffset(timezone, dateTimezoneOffset); date = convertTimezoneToLocal(date, timezone, true); } forEach(parts, function(value) { fn = DATE_FORMATS[value]; text += fn ? fn(date, $locale.DATETIME_FORMATS, dateTimezoneOffset) : value === "''" ? "'" : value.replace(/(^'|'$)/g, '').replace(/''/g, "'"); }); return text; }; } /** * @ngdoc filter * @name json * @kind function * * @description * Allows you to convert a JavaScript object into JSON string. * * This filter is mostly useful for debugging. When using the double curly {{value}} notation * the binding is automatically converted to JSON. * * @param {*} object Any JavaScript object (including arrays and primitive types) to filter. * @param {number=} spacing The number of spaces to use per indentation, defaults to 2. * @returns {string} JSON string. * * * @example 
{{ {'name':'value'} | json }}
{{ {'name':'value'} | json:4 }}
 it('should jsonify filtered objects', function() { expect(element(by.id('default-spacing')).getText()).toMatch(/\{\n "name": ?"value"\n}/); expect(element(by.id('custom-spacing')).getText()).toMatch(/\{\n "name": ?"value"\n}/); }); * */ function jsonFilter() { return function(object, spacing) { if (isUndefined(spacing)) { spacing = 2; } return toJson(object, spacing); }; } /** * @ngdoc filter * @name lowercase * @kind function * @description * Converts string to lowercase. * @see angular.lowercase */ var lowercaseFilter = valueFn(lowercase); /** * @ngdoc filter * @name uppercase * @kind function * @description * Converts string to uppercase. * @see angular.uppercase */ var uppercaseFilter = valueFn(uppercase); /** * @ngdoc filter * @name limitTo * @kind function * * @description * Creates a new array or string containing only a specified number of elements. The elements are * taken from either the beginning or the end of the source array, string or number, as specified by * the value and sign (positive or negative) of `limit`. Other array-like objects are also supported * (e.g. array subclasses, NodeLists, jqLite/jQuery collections etc). If a number is used as input, * it is converted to a string. * * @param {Array|ArrayLike|string|number} input - Array/array-like, string or number to be limited. * @param {string|number} limit - The length of the returned array or string. If the `limit` number * is positive, `limit` number of items from the beginning of the source array/string are copied. * If the number is negative, `limit` number of items from the end of the source array/string * are copied. The `limit` will be trimmed if it exceeds `array.length`. If `limit` is undefined, * the input will be returned unchanged. * @param {(string|number)=} begin - Index at which to begin limitation. As a negative index, * `begin` indicates an offset from the end of `input`. Defaults to `0`. * @returns {Array|string} A new sub-array or substring of length `limit` or less if the input had * less than `limit` elements. * * @example

Output numbers: {{ numbers | limitTo:numLimit }}

Output letters: {{ letters | limitTo:letterLimit }}

Output long number: {{ longNumber | limitTo:longNumberLimit }}

 var numLimitInput = element(by.model('numLimit')); var letterLimitInput = element(by.model('letterLimit')); var longNumberLimitInput = element(by.model('longNumberLimit')); var limitedNumbers = element(by.binding('numbers | limitTo:numLimit')); var limitedLetters = element(by.binding('letters | limitTo:letterLimit')); var limitedLongNumber = element(by.binding('longNumber | limitTo:longNumberLimit')); it('should limit the number array to first three items', function() { expect(numLimitInput.getAttribute('value')).toBe('3'); expect(letterLimitInput.getAttribute('value')).toBe('3'); expect(longNumberLimitInput.getAttribute('value')).toBe('3'); expect(limitedNumbers.getText()).toEqual('Output numbers: [1,2,3]'); expect(limitedLetters.getText()).toEqual('Output letters: abc'); expect(limitedLongNumber.getText()).toEqual('Output long number: 234'); }); // There is a bug in safari and protractor that doesn't like the minus key // it('should update the output when -3 is entered', function() { // numLimitInput.clear(); // numLimitInput.sendKeys('-3'); // letterLimitInput.clear(); // letterLimitInput.sendKeys('-3'); // longNumberLimitInput.clear(); // longNumberLimitInput.sendKeys('-3'); // expect(limitedNumbers.getText()).toEqual('Output numbers: [7,8,9]'); // expect(limitedLetters.getText()).toEqual('Output letters: ghi'); // expect(limitedLongNumber.getText()).toEqual('Output long number: 342'); // }); it('should not exceed the maximum size of input array', function() { numLimitInput.clear(); numLimitInput.sendKeys('100'); letterLimitInput.clear(); letterLimitInput.sendKeys('100'); longNumberLimitInput.clear(); longNumberLimitInput.sendKeys('100'); expect(limitedNumbers.getText()).toEqual('Output numbers: [1,2,3,4,5,6,7,8,9]'); expect(limitedLetters.getText()).toEqual('Output letters: abcdefghi'); expect(limitedLongNumber.getText()).toEqual('Output long number: 2345432342'); }); */ function limitToFilter() { return function(input, limit, begin) { if (Math.abs(Number(limit)) === Infinity) { limit = Number(limit); } else { limit = toInt(limit); } if (isNaN(limit)) return input; if (isNumber(input)) input = input.toString(); if (!isArrayLike(input)) return input; begin = (!begin || isNaN(begin)) ? 0 : toInt(begin); begin = (begin < 0) ? Math.max(0, input.length + begin) : begin; if (limit >= 0) { return sliceFn(input, begin, begin + limit); } else { if (begin === 0) { return sliceFn(input, limit, input.length); } else { return sliceFn(input, Math.max(0, begin + limit), begin); } } }; } function sliceFn(input, begin, end) { if (isString(input)) return input.slice(begin, end); return slice.call(input, begin, end); } /** * @ngdoc filter * @name orderBy * @kind function * * @description * Returns an array containing the items from the specified `collection`, ordered by a `comparator` * function based on the values computed using the `expression` predicate. * * For example, `[{id: 'foo'}, {id: 'bar'}] | orderBy:'id'` would result in * `[{id: 'bar'}, {id: 'foo'}]`. * * The `collection` can be an Array or array-like object (e.g. NodeList, jQuery object, TypedArray, * String, etc). * * The `expression` can be a single predicate, or a list of predicates each serving as a tie-breaker * for the preceeding one. The `expression` is evaluated against each item and the output is used * for comparing with other items. * * You can change the sorting order by setting `reverse` to `true`. By default, items are sorted in * ascending order. * * The comparison is done using the `comparator` function. If none is specified, a default, built-in * comparator is used (see below for details - in a nutshell, it compares numbers numerically and * strings alphabetically). * * ### Under the hood * * Ordering the specified `collection` happens in two phases: * * 1. All items are passed through the predicate (or predicates), and the returned values are saved * along with their type (`string`, `number` etc). For example, an item `{label: 'foo'}`, passed * through a predicate that extracts the value of the `label` property, would be transformed to: * ``` * { * value: 'foo', * type: 'string', * index: ... * } * ``` * 2. The comparator function is used to sort the items, based on the derived values, types and * indices. * * If you use a custom comparator, it will be called with pairs of objects of the form * `{value: ..., type: '...', index: ...}` and is expected to return `0` if the objects are equal * (as far as the comparator is concerned), `-1` if the 1st one should be ranked higher than the * second, or `1` otherwise. * * In order to ensure that the sorting will be deterministic across platforms, if none of the * specified predicates can distinguish between two items, `orderBy` will automatically introduce a * dummy predicate that returns the item's index as `value`. * (If you are using a custom comparator, make sure it can handle this predicate as well.) * * Finally, in an attempt to simplify things, if a predicate returns an object as the extracted * value for an item, `orderBy` will try to convert that object to a primitive value, before passing * it to the comparator. The following rules govern the conversion: * * 1. If the object has a `valueOf()` method that returns a primitive, its return value will be * used instead.
* (If the object has a `valueOf()` method that returns another object, then the returned object * will be used in subsequent steps.) * 2. If the object has a custom `toString()` method (i.e. not the one inherited from `Object`) that * returns a primitive, its return value will be used instead.
* (If the object has a `toString()` method that returns another object, then the returned object * will be used in subsequent steps.) * 3. No conversion; the object itself is used. * * ### The default comparator * * The default, built-in comparator should be sufficient for most usecases. In short, it compares * numbers numerically, strings alphabetically (and case-insensitively), for objects falls back to * using their index in the original collection, and sorts values of different types by type. * * More specifically, it follows these steps to determine the relative order of items: * * 1. If the compared values are of different types, compare the types themselves alphabetically. * 2. If both values are of type `string`, compare them alphabetically in a case- and * locale-insensitive way. * 3. If both values are objects, compare their indices instead. * 4. Otherwise, return: * - `0`, if the values are equal (by strict equality comparison, i.e. using `===`). * - `-1`, if the 1st value is "less than" the 2nd value (compared using the `<` operator). * - `1`, otherwise. * * **Note:** If you notice numbers not being sorted as expected, make sure they are actually being * saved as numbers and not strings. * * @param {Array|ArrayLike} collection - The collection (array or array-like object) to sort. * @param {(Function|string|Array.)=} expression - A predicate (or list of * predicates) to be used by the comparator to determine the order of elements. * * Can be one of: * * - `Function`: A getter function. This function will be called with each item as argument and * the return value will be used for sorting. * - `string`: An Angular expression. This expression will be evaluated against each item and the * result will be used for sorting. For example, use `'label'` to sort by a property called * `label` or `'label.substring(0, 3)'` to sort by the first 3 characters of the `label` * property.
* (The result of a constant expression is interpreted as a property name to be used for * comparison. For example, use `'"special name"'` (note the extra pair of quotes) to sort by a * property called `special name`.)
* An expression can be optionally prefixed with `+` or `-` to control the sorting direction, * ascending or descending. For example, `'+label'` or `'-label'`. If no property is provided, * (e.g. `'+'` or `'-'`), the collection element itself is used in comparisons. * - `Array`: An array of function and/or string predicates. If a predicate cannot determine the * relative order of two items, the next predicate is used as a tie-breaker. * * **Note:** If the predicate is missing or empty then it defaults to `'+'`. * * @param {boolean=} reverse - If `true`, reverse the sorting order. * @param {(Function)=} comparator - The comparator function used to determine the relative order of * value pairs. If omitted, the built-in comparator will be used. * * @returns {Array} - The sorted array. * * * @example * ### Ordering a table with `ngRepeat` * * The example below demonstrates a simple {@link ngRepeat ngRepeat}, where the data is sorted by * age in descending order (expression is set to `'-age'`). The `comparator` is not set, which means * it defaults to the built-in comparator. *
Name Phone Number Age
{{friend.name}} {{friend.phone}} {{friend.age}}
angular.module('orderByExample1', []) .controller('ExampleController', ['$scope', function($scope) { $scope.friends = [ {name: 'John', phone: '555-1212', age: 10}, {name: 'Mary', phone: '555-9876', age: 19}, {name: 'Mike', phone: '555-4321', age: 21}, {name: 'Adam', phone: '555-5678', age: 35}, {name: 'Julie', phone: '555-8765', age: 29} ]; }]); .friends { border-collapse: collapse; } .friends th { border-bottom: 1px solid; } .friends td, .friends th { border-left: 1px solid; padding: 5px 10px; } .friends td:first-child, .friends th:first-child { border-left: none; } // Element locators var names = element.all(by.repeater('friends').column('friend.name')); it('should sort friends by age in reverse order', function() { expect(names.get(0).getText()).toBe('Adam'); expect(names.get(1).getText()).toBe('Julie'); expect(names.get(2).getText()).toBe('Mike'); expect(names.get(3).getText()).toBe('Mary'); expect(names.get(4).getText()).toBe('John'); }); *
* * @example * ### Changing parameters dynamically * * All parameters can be changed dynamically. The next example shows how you can make the columns of * a table sortable, by binding the `expression` and `reverse` parameters to scope properties. * 
Sort by = {{propertyName}}; reverse = {{reverse}}
{{friend.name}} {{friend.phone}} {{friend.age}}
angular.module('orderByExample2', []) .controller('ExampleController', ['$scope', function($scope) { var friends = [ {name: 'John', phone: '555-1212', age: 10}, {name: 'Mary', phone: '555-9876', age: 19}, {name: 'Mike', phone: '555-4321', age: 21}, {name: 'Adam', phone: '555-5678', age: 35}, {name: 'Julie', phone: '555-8765', age: 29} ]; $scope.propertyName = 'age'; $scope.reverse = true; $scope.friends = friends; $scope.sortBy = function(propertyName) { $scope.reverse = ($scope.propertyName === propertyName) ? !$scope.reverse : false; $scope.propertyName = propertyName; }; }]); .friends { border-collapse: collapse; } .friends th { border-bottom: 1px solid; } .friends td, .friends th { border-left: 1px solid; padding: 5px 10px; } .friends td:first-child, .friends th:first-child { border-left: none; } .sortorder:after { content: '\25b2'; // BLACK UP-POINTING TRIANGLE } .sortorder.reverse:after { content: '\25bc'; // BLACK DOWN-POINTING TRIANGLE } // Element locators var unsortButton = element(by.partialButtonText('unsorted')); var nameHeader = element(by.partialButtonText('Name')); var phoneHeader = element(by.partialButtonText('Phone')); var ageHeader = element(by.partialButtonText('Age')); var firstName = element(by.repeater('friends').column('friend.name').row(0)); var lastName = element(by.repeater('friends').column('friend.name').row(4)); it('should sort friends by some property, when clicking on the column header', function() { expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); phoneHeader.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Mary'); nameHeader.click(); expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('Mike'); ageHeader.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Adam'); }); it('should sort friends in reverse order, when clicking on the same column', function() { expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); ageHeader.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Adam'); ageHeader.click(); expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); }); it('should restore the original order, when clicking "Set to unsorted"', function() { expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); unsortButton.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Julie'); }); *
* * @example * ### Using `orderBy` inside a controller * * It is also possible to call the `orderBy` filter manually, by injecting `orderByFilter`, and * calling it with the desired parameters. (Alternatively, you could inject the `$filter` factory * and retrieve the `orderBy` filter with `$filter('orderBy')`.) * 
Sort by = {{propertyName}}; reverse = {{reverse}}
{{friend.name}} {{friend.phone}} {{friend.age}}
angular.module('orderByExample3', []) .controller('ExampleController', ['$scope', 'orderByFilter', function($scope, orderBy) { var friends = [ {name: 'John', phone: '555-1212', age: 10}, {name: 'Mary', phone: '555-9876', age: 19}, {name: 'Mike', phone: '555-4321', age: 21}, {name: 'Adam', phone: '555-5678', age: 35}, {name: 'Julie', phone: '555-8765', age: 29} ]; $scope.propertyName = 'age'; $scope.reverse = true; $scope.friends = orderBy(friends, $scope.propertyName, $scope.reverse); $scope.sortBy = function(propertyName) { $scope.reverse = (propertyName !== null && $scope.propertyName === propertyName) ? !$scope.reverse : false; $scope.propertyName = propertyName; $scope.friends = orderBy(friends, $scope.propertyName, $scope.reverse); }; }]); .friends { border-collapse: collapse; } .friends th { border-bottom: 1px solid; } .friends td, .friends th { border-left: 1px solid; padding: 5px 10px; } .friends td:first-child, .friends th:first-child { border-left: none; } .sortorder:after { content: '\25b2'; // BLACK UP-POINTING TRIANGLE } .sortorder.reverse:after { content: '\25bc'; // BLACK DOWN-POINTING TRIANGLE } // Element locators var unsortButton = element(by.partialButtonText('unsorted')); var nameHeader = element(by.partialButtonText('Name')); var phoneHeader = element(by.partialButtonText('Phone')); var ageHeader = element(by.partialButtonText('Age')); var firstName = element(by.repeater('friends').column('friend.name').row(0)); var lastName = element(by.repeater('friends').column('friend.name').row(4)); it('should sort friends by some property, when clicking on the column header', function() { expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); phoneHeader.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Mary'); nameHeader.click(); expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('Mike'); ageHeader.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Adam'); }); it('should sort friends in reverse order, when clicking on the same column', function() { expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); ageHeader.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Adam'); ageHeader.click(); expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); }); it('should restore the original order, when clicking "Set to unsorted"', function() { expect(firstName.getText()).toBe('Adam'); expect(lastName.getText()).toBe('John'); unsortButton.click(); expect(firstName.getText()).toBe('John'); expect(lastName.getText()).toBe('Julie'); }); *
* * @example * ### Using a custom comparator * * If you have very specific requirements about the way items are sorted, you can pass your own * comparator function. For example, you might need to compare some strings in a locale-sensitive * way. (When specifying a custom comparator, you also need to pass a value for the `reverse` * argument - passing `false` retains the default sorting order, i.e. ascending.) *

Locale-sensitive Comparator

Name Favorite Letter
{{friend.name}} {{friend.favoriteLetter}}

Default Comparator

Name Favorite Letter
{{friend.name}} {{friend.favoriteLetter}}
angular.module('orderByExample4', []) .controller('ExampleController', ['$scope', function($scope) { $scope.friends = [ {name: 'John', favoriteLetter: 'Ä'}, {name: 'Mary', favoriteLetter: 'Ü'}, {name: 'Mike', favoriteLetter: 'Ö'}, {name: 'Adam', favoriteLetter: 'H'}, {name: 'Julie', favoriteLetter: 'Z'} ]; $scope.localeSensitiveComparator = function(v1, v2) { // If we don't get strings, just compare by index if (v1.type !== 'string' || v2.type !== 'string') { return (v1.index < v2.index) ? -1 : 1; } // Compare strings alphabetically, taking locale into account return v1.value.localeCompare(v2.value); }; }]); .friends-container { display: inline-block; margin: 0 30px; } .friends { border-collapse: collapse; } .friends th { border-bottom: 1px solid; } .friends td, .friends th { border-left: 1px solid; padding: 5px 10px; } .friends td:first-child, .friends th:first-child { border-left: none; } // Element locators var container = element(by.css('.custom-comparator')); var names = container.all(by.repeater('friends').column('friend.name')); it('should sort friends by favorite letter (in correct alphabetical order)', function() { expect(names.get(0).getText()).toBe('John'); expect(names.get(1).getText()).toBe('Adam'); expect(names.get(2).getText()).toBe('Mike'); expect(names.get(3).getText()).toBe('Mary'); expect(names.get(4).getText()).toBe('Julie'); }); * */ orderByFilter.$inject = ['$parse']; function orderByFilter($parse) { return function(array, sortPredicate, reverseOrder, compareFn) { if (array == null) return array; if (!isArrayLike(array)) { throw minErr('orderBy')('notarray', 'Expected array but received: {0}', array); } if (!isArray(sortPredicate)) { sortPredicate = [sortPredicate]; } if (sortPredicate.length === 0) { sortPredicate = ['+']; } var predicates = processPredicates(sortPredicate); var descending = reverseOrder ? -1 : 1; // Define the `compare()` function. Use a default comparator if none is specified. var compare = isFunction(compareFn) ? compareFn : defaultCompare; // The next three lines are a version of a Swartzian Transform idiom from Perl // (sometimes called the Decorate-Sort-Undecorate idiom) // See https://en.wikipedia.org/wiki/Schwartzian_transform var compareValues = Array.prototype.map.call(array, getComparisonObject); compareValues.sort(doComparison); array = compareValues.map(function(item) { return item.value; }); return array; function getComparisonObject(value, index) { // NOTE: We are adding an extra `tieBreaker` value based on the element's index. // This will be used to keep the sort stable when none of the input predicates can // distinguish between two elements. return { value: value, tieBreaker: {value: index, type: 'number', index: index}, predicateValues: predicates.map(function(predicate) { return getPredicateValue(predicate.get(value), index); }) }; } function doComparison(v1, v2) { for (var i = 0, ii = predicates.length; i < ii; i++) { var result = compare(v1.predicateValues[i], v2.predicateValues[i]); if (result) { return result * predicates[i].descending * descending; } } return compare(v1.tieBreaker, v2.tieBreaker) * descending; } }; function processPredicates(sortPredicates) { return sortPredicates.map(function(predicate) { var descending = 1, get = identity; if (isFunction(predicate)) { get = predicate; } else if (isString(predicate)) { if ((predicate.charAt(0) == '+' || predicate.charAt(0) == '-')) { descending = predicate.charAt(0) == '-' ? -1 : 1; predicate = predicate.substring(1); } if (predicate !== '') { get = $parse(predicate); if (get.constant) { var key = get(); get = function(value) { return value[key]; }; } } } return {get: get, descending: descending}; }); } function isPrimitive(value) { switch (typeof value) { case 'number': /* falls through */ case 'boolean': /* falls through */ case 'string': return true; default: return false; } } function objectValue(value) { // If `valueOf` is a valid function use that if (isFunction(value.valueOf)) { value = value.valueOf(); if (isPrimitive(value)) return value; } // If `toString` is a valid function and not the one from `Object.prototype` use that if (hasCustomToString(value)) { value = value.toString(); if (isPrimitive(value)) return value; } return value; } function getPredicateValue(value, index) { var type = typeof value; if (value === null) { type = 'string'; value = 'null'; } else if (type === 'object') { value = objectValue(value); } return {value: value, type: type, index: index}; } function defaultCompare(v1, v2) { var result = 0; var type1 = v1.type; var type2 = v2.type; if (type1 === type2) { var value1 = v1.value; var value2 = v2.value; if (type1 === 'string') { // Compare strings case-insensitively value1 = value1.toLowerCase(); value2 = value2.toLowerCase(); } else if (type1 === 'object') { // For basic objects, use the position of the object // in the collection instead of the value if (isObject(value1)) value1 = v1.index; if (isObject(value2)) value2 = v2.index; } if (value1 !== value2) { result = value1 < value2 ? -1 : 1; } } else { result = type1 < type2 ? -1 : 1; } return result; } } function ngDirective(directive) { if (isFunction(directive)) { directive = { link: directive }; } directive.restrict = directive.restrict || 'AC'; return valueFn(directive); } /** * @ngdoc directive * @name a * @restrict E * * @description * Modifies the default behavior of the html A tag so that the default action is prevented when * the href attribute is empty. * * This change permits the easy creation of action links with the `ngClick` directive * without changing the location or causing page reloads, e.g.: * `Add Item` */ var htmlAnchorDirective = valueFn({ restrict: 'E', compile: function(element, attr) { if (!attr.href && !attr.xlinkHref) { return function(scope, element) { // If the linked element is not an anchor tag anymore, do nothing if (element[0].nodeName.toLowerCase() !== 'a') return; // SVGAElement does not use the href attribute, but rather the 'xlinkHref' attribute. var href = toString.call(element.prop('href')) === '[object SVGAnimatedString]' ? 'xlink:href' : 'href'; element.on('click', function(event) { // if we have no href url, then don't navigate anywhere. if (!element.attr(href)) { event.preventDefault(); } }); }; } } }); /** * @ngdoc directive * @name ngHref * @restrict A * @priority 99 * * @description * Using Angular markup like `{{hash}}` in an href attribute will * make the link go to the wrong URL if the user clicks it before * Angular has a chance to replace the `{{hash}}` markup with its * value. Until Angular replaces the markup the link will be broken * and will most likely return a 404 error. The `ngHref` directive * solves this problem. * * The wrong way to write it: * ```html * link1 * ``` * * The correct way to write it: * ```html * link1 * ``` * * @element A * @param {template} ngHref any string which can contain `{{}}` markup. * * @example * This example shows various combinations of `href`, `ng-href` and `ng-click` attributes * in links and their different behaviors:
link 1 (link, don't reload)
link 2 (link, don't reload)
link 3 (link, reload!)
anchor (link, don't reload)
anchor (no link)
link (link, change location) it('should execute ng-click but not reload when href without value', function() { element(by.id('link-1')).click(); expect(element(by.model('value')).getAttribute('value')).toEqual('1'); expect(element(by.id('link-1')).getAttribute('href')).toBe(''); }); it('should execute ng-click but not reload when href empty string', function() { element(by.id('link-2')).click(); expect(element(by.model('value')).getAttribute('value')).toEqual('2'); expect(element(by.id('link-2')).getAttribute('href')).toBe(''); }); it('should execute ng-click and change url when ng-href specified', function() { expect(element(by.id('link-3')).getAttribute('href')).toMatch(/\/123$/); element(by.id('link-3')).click(); // At this point, we navigate away from an Angular page, so we need // to use browser.driver to get the base webdriver. browser.wait(function() { return browser.driver.getCurrentUrl().then(function(url) { return url.match(/\/123$/); }); }, 5000, 'page should navigate to /123'); }); it('should execute ng-click but not reload when href empty string and name specified', function() { element(by.id('link-4')).click(); expect(element(by.model('value')).getAttribute('value')).toEqual('4'); expect(element(by.id('link-4')).getAttribute('href')).toBe(''); }); it('should execute ng-click but not reload when no href but name specified', function() { element(by.id('link-5')).click(); expect(element(by.model('value')).getAttribute('value')).toEqual('5'); expect(element(by.id('link-5')).getAttribute('href')).toBe(null); }); it('should only change url when only ng-href', function() { element(by.model('value')).clear(); element(by.model('value')).sendKeys('6'); expect(element(by.id('link-6')).getAttribute('href')).toMatch(/\/6$/); element(by.id('link-6')).click(); // At this point, we navigate away from an Angular page, so we need // to use browser.driver to get the base webdriver. browser.wait(function() { return browser.driver.getCurrentUrl().then(function(url) { return url.match(/\/6$/); }); }, 5000, 'page should navigate to /6'); }); */ /** * @ngdoc directive * @name ngSrc * @restrict A * @priority 99 * * @description * Using Angular markup like `{{hash}}` in a `src` attribute doesn't * work right: The browser will fetch from the URL with the literal * text `{{hash}}` until Angular replaces the expression inside * `{{hash}}`. The `ngSrc` directive solves this problem. * * The buggy way to write it: * ```html * Description * ``` * * The correct way to write it: * ```html * Description * ``` * * @element IMG * @param {template} ngSrc any string which can contain `{{}}` markup. */ /** * @ngdoc directive * @name ngSrcset * @restrict A * @priority 99 * * @description * Using Angular markup like `{{hash}}` in a `srcset` attribute doesn't * work right: The browser will fetch from the URL with the literal * text `{{hash}}` until Angular replaces the expression inside * `{{hash}}`. The `ngSrcset` directive solves this problem. * * The buggy way to write it: * ```html * Description * ``` * * The correct way to write it: * ```html * Description * ``` * * @element IMG * @param {template} ngSrcset any string which can contain `{{}}` markup. */ /** * @ngdoc directive * @name ngDisabled * @restrict A * @priority 100 * * @description * * This directive sets the `disabled` attribute on the element if the * {@link guide/expression expression} inside `ngDisabled` evaluates to truthy. * * A special directive is necessary because we cannot use interpolation inside the `disabled` * attribute. See the {@link guide/interpolation interpolation guide} for more info. * * @example
it('should toggle button', function() { expect(element(by.css('button')).getAttribute('disabled')).toBeFalsy(); element(by.model('checked')).click(); expect(element(by.css('button')).getAttribute('disabled')).toBeTruthy(); }); * * @element INPUT * @param {expression} ngDisabled If the {@link guide/expression expression} is truthy, * then the `disabled` attribute will be set on the element */ /** * @ngdoc directive * @name ngChecked * @restrict A * @priority 100 * * @description * Sets the `checked` attribute on the element, if the expression inside `ngChecked` is truthy. * * Note that this directive should not be used together with {@link ngModel `ngModel`}, * as this can lead to unexpected behavior. * * A special directive is necessary because we cannot use interpolation inside the `checked` * attribute. See the {@link guide/interpolation interpolation guide} for more info. * * @example
it('should check both checkBoxes', function() { expect(element(by.id('checkSlave')).getAttribute('checked')).toBeFalsy(); element(by.model('master')).click(); expect(element(by.id('checkSlave')).getAttribute('checked')).toBeTruthy(); }); * * @element INPUT * @param {expression} ngChecked If the {@link guide/expression expression} is truthy, * then the `checked` attribute will be set on the element */ /** * @ngdoc directive * @name ngReadonly * @restrict A * @priority 100 * * @description * * Sets the `readonly` attribute on the element, if the expression inside `ngReadonly` is truthy. * Note that `readonly` applies only to `input` elements with specific types. [See the input docs on * MDN](https://developer.mozilla.org/en-US/docs/Web/HTML/Element/input#attr-readonly) for more information. * * A special directive is necessary because we cannot use interpolation inside the `readonly` * attribute. See the {@link guide/interpolation interpolation guide} for more info. * * @example
it('should toggle readonly attr', function() { expect(element(by.css('[type="text"]')).getAttribute('readonly')).toBeFalsy(); element(by.model('checked')).click(); expect(element(by.css('[type="text"]')).getAttribute('readonly')).toBeTruthy(); }); * * @element INPUT * @param {expression} ngReadonly If the {@link guide/expression expression} is truthy, * then special attribute "readonly" will be set on the element */ /** * @ngdoc directive * @name ngSelected * @restrict A * @priority 100 * * @description * * Sets the `selected` attribute on the element, if the expression inside `ngSelected` is truthy. * * A special directive is necessary because we cannot use interpolation inside the `selected` * attribute. See the {@link guide/interpolation interpolation guide} for more info. * *
* **Note:** `ngSelected` does not interact with the `select` and `ngModel` directives, it only * sets the `selected` attribute on the element. If you are using `ngModel` on the select, you * should not use `ngSelected` on the options, as `ngModel` will set the select value and * selected options. *
* * @example
it('should select Greetings!', function() { expect(element(by.id('greet')).getAttribute('selected')).toBeFalsy(); element(by.model('selected')).click(); expect(element(by.id('greet')).getAttribute('selected')).toBeTruthy(); }); * * @element OPTION * @param {expression} ngSelected If the {@link guide/expression expression} is truthy, * then special attribute "selected" will be set on the element */ /** * @ngdoc directive * @name ngOpen * @restrict A * @priority 100 * * @description * * Sets the `open` attribute on the element, if the expression inside `ngOpen` is truthy. * * A special directive is necessary because we cannot use interpolation inside the `open` * attribute. See the {@link guide/interpolation interpolation guide} for more info. * * ## A note about browser compatibility * * Edge, Firefox, and Internet Explorer do not support the `details` element, it is * recommended to use {@link ng.ngShow} and {@link ng.ngHide} instead. * * @example
Show/Hide me
it('should toggle open', function() { expect(element(by.id('details')).getAttribute('open')).toBeFalsy(); element(by.model('open')).click(); expect(element(by.id('details')).getAttribute('open')).toBeTruthy(); }); * * @element DETAILS * @param {expression} ngOpen If the {@link guide/expression expression} is truthy, * then special attribute "open" will be set on the element */ var ngAttributeAliasDirectives = {}; // boolean attrs are evaluated forEach(BOOLEAN_ATTR, function(propName, attrName) { // binding to multiple is not supported if (propName == "multiple") return; function defaultLinkFn(scope, element, attr) { scope.$watch(attr[normalized], function ngBooleanAttrWatchAction(value) { attr.$set(attrName, !!value); }); } var normalized = directiveNormalize('ng-' + attrName); var linkFn = defaultLinkFn; if (propName === 'checked') { linkFn = function(scope, element, attr) { // ensuring ngChecked doesn't interfere with ngModel when both are set on the same input if (attr.ngModel !== attr[normalized]) { defaultLinkFn(scope, element, attr); } }; } ngAttributeAliasDirectives[normalized] = function() { return { restrict: 'A', priority: 100, link: linkFn }; }; }); // aliased input attrs are evaluated forEach(ALIASED_ATTR, function(htmlAttr, ngAttr) { ngAttributeAliasDirectives[ngAttr] = function() { return { priority: 100, link: function(scope, element, attr) { //special case ngPattern when a literal regular expression value //is used as the expression (this way we don't have to watch anything). if (ngAttr === "ngPattern" && attr.ngPattern.charAt(0) == "/") { var match = attr.ngPattern.match(REGEX_STRING_REGEXP); if (match) { attr.$set("ngPattern", new RegExp(match[1], match[2])); return; } } scope.$watch(attr[ngAttr], function ngAttrAliasWatchAction(value) { attr.$set(ngAttr, value); }); } }; }; }); // ng-src, ng-srcset, ng-href are interpolated forEach(['src', 'srcset', 'href'], function(attrName) { var normalized = directiveNormalize('ng-' + attrName); ngAttributeAliasDirectives[normalized] = function() { return { priority: 99, // it needs to run after the attributes are interpolated link: function(scope, element, attr) { var propName = attrName, name = attrName; if (attrName === 'href' && toString.call(element.prop('href')) === '[object SVGAnimatedString]') { name = 'xlinkHref'; attr.$attr[name] = 'xlink:href'; propName = null; } attr.$observe(normalized, function(value) { if (!value) { if (attrName === 'href') { attr.$set(name, null); } return; } attr.$set(name, value); // on IE, if "ng:src" directive declaration is used and "src" attribute doesn't exist // then calling element.setAttribute('src', 'foo') doesn't do anything, so we need // to set the property as well to achieve the desired effect. // we use attr[attrName] value since $set can sanitize the url. if (msie && propName) element.prop(propName, attr[name]); }); } }; }; }); /* global -nullFormCtrl, -SUBMITTED_CLASS, addSetValidityMethod: true */ var nullFormCtrl = { $addControl: noop, $$renameControl: nullFormRenameControl, $removeControl: noop, $setValidity: noop, $setDirty: noop, $setPristine: noop, $setSubmitted: noop }, SUBMITTED_CLASS = 'ng-submitted'; function nullFormRenameControl(control, name) { control.$name = name; } /** * @ngdoc type * @name form.FormController * * @property {boolean} $pristine True if user has not interacted with the form yet. * @property {boolean} $dirty True if user has already interacted with the form. * @property {boolean} $valid True if all of the containing forms and controls are valid. * @property {boolean} $invalid True if at least one containing control or form is invalid. * @property {boolean} $pending True if at least one containing control or form is pending. * @property {boolean} $submitted True if user has submitted the form even if its invalid. * * @property {Object} $error Is an object hash, containing references to controls or * forms with failing validators, where: * * - keys are validation tokens (error names), * - values are arrays of controls or forms that have a failing validator for given error name. * * Built-in validation tokens: * * - `email` * - `max` * - `maxlength` * - `min` * - `minlength` * - `number` * - `pattern` * - `required` * - `url` * - `date` * - `datetimelocal` * - `time` * - `week` * - `month` * * @description * `FormController` keeps track of all its controls and nested forms as well as the state of them, * such as being valid/invalid or dirty/pristine. * * Each {@link ng.directive:form form} directive creates an instance * of `FormController`. * */ //asks for $scope to fool the BC controller module FormController.$inject = ['$element', '$attrs', '$scope', '$animate', '$interpolate']; function FormController(element, attrs, $scope, $animate, $interpolate) { var form = this, controls = []; // init state form.$error = {}; form.$$success = {}; form.$pending = undefined; form.$name = $interpolate(attrs.name || attrs.ngForm || '')($scope); form.$dirty = false; form.$pristine = true; form.$valid = true; form.$invalid = false; form.$submitted = false; form.$$parentForm = nullFormCtrl; /** * @ngdoc method * @name form.FormController#$rollbackViewValue * * @description * Rollback all form controls pending updates to the `$modelValue`. * * Updates may be pending by a debounced event or because the input is waiting for a some future * event defined in `ng-model-options`. This method is typically needed by the reset button of * a form that uses `ng-model-options` to pend updates. */ form.$rollbackViewValue = function() { forEach(controls, function(control) { control.$rollbackViewValue(); }); }; /** * @ngdoc method * @name form.FormController#$commitViewValue * * @description * Commit all form controls pending updates to the `$modelValue`. * * Updates may be pending by a debounced event or because the input is waiting for a some future * event defined in `ng-model-options`. This method is rarely needed as `NgModelController` * usually handles calling this in response to input events. */ form.$commitViewValue = function() { forEach(controls, function(control) { control.$commitViewValue(); }); }; /** * @ngdoc method * @name form.FormController#$addControl * @param {object} control control object, either a {@link form.FormController} or an * {@link ngModel.NgModelController} * * @description * Register a control with the form. Input elements using ngModelController do this automatically * when they are linked. * * Note that the current state of the control will not be reflected on the new parent form. This * is not an issue with normal use, as freshly compiled and linked controls are in a `$pristine` * state. * * However, if the method is used programmatically, for example by adding dynamically created controls, * or controls that have been previously removed without destroying their corresponding DOM element, * it's the developers responsibility to make sure the current state propagates to the parent form. * * For example, if an input control is added that is already `$dirty` and has `$error` properties, * calling `$setDirty()` and `$validate()` afterwards will propagate the state to the parent form. */ form.$addControl = function(control) { // Breaking change - before, inputs whose name was "hasOwnProperty" were quietly ignored // and not added to the scope. Now we throw an error. assertNotHasOwnProperty(control.$name, 'input'); controls.push(control); if (control.$name) { form[control.$name] = control; } control.$$parentForm = form; }; // Private API: rename a form control form.$$renameControl = function(control, newName) { var oldName = control.$name; if (form[oldName] === control) { delete form[oldName]; } form[newName] = control; control.$name = newName; }; /** * @ngdoc method * @name form.FormController#$removeControl * @param {object} control control object, either a {@link form.FormController} or an * {@link ngModel.NgModelController} * * @description * Deregister a control from the form. * * Input elements using ngModelController do this automatically when they are destroyed. * * Note that only the removed control's validation state (`$errors`etc.) will be removed from the * form. `$dirty`, `$submitted` states will not be changed, because the expected behavior can be * different from case to case. For example, removing the only `$dirty` control from a form may or * may not mean that the form is still `$dirty`. */ form.$removeControl = function(control) { if (control.$name && form[control.$name] === control) { delete form[control.$name]; } forEach(form.$pending, function(value, name) { form.$setValidity(name, null, control); }); forEach(form.$error, function(value, name) { form.$setValidity(name, null, control); }); forEach(form.$$success, function(value, name) { form.$setValidity(name, null, control); }); arrayRemove(controls, control); control.$$parentForm = nullFormCtrl; }; /** * @ngdoc method * @name form.FormController#$setValidity * * @description * Sets the validity of a form control. * * This method will also propagate to parent forms. */ addSetValidityMethod({ ctrl: this, $element: element, set: function(object, property, controller) { var list = object[property]; if (!list) { object[property] = [controller]; } else { var index = list.indexOf(controller); if (index === -1) { list.push(controller); } } }, unset: function(object, property, controller) { var list = object[property]; if (!list) { return; } arrayRemove(list, controller); if (list.length === 0) { delete object[property]; } }, $animate: $animate }); /** * @ngdoc method * @name form.FormController#$setDirty * * @description * Sets the form to a dirty state. * * This method can be called to add the 'ng-dirty' class and set the form to a dirty * state (ng-dirty class). This method will also propagate to parent forms. */ form.$setDirty = function() { $animate.removeClass(element, PRISTINE_CLASS); $animate.addClass(element, DIRTY_CLASS); form.$dirty = true; form.$pristine = false; form.$$parentForm.$setDirty(); }; /** * @ngdoc method * @name form.FormController#$setPristine * * @description * Sets the form to its pristine state. * * This method can be called to remove the 'ng-dirty' class and set the form to its pristine * state (ng-pristine class). This method will also propagate to all the controls contained * in this form. * * Setting a form back to a pristine state is often useful when we want to 'reuse' a form after * saving or resetting it. */ form.$setPristine = function() { $animate.setClass(element, PRISTINE_CLASS, DIRTY_CLASS + ' ' + SUBMITTED_CLASS); form.$dirty = false; form.$pristine = true; form.$submitted = false; forEach(controls, function(control) { control.$setPristine(); }); }; /** * @ngdoc method * @name form.FormController#$setUntouched * * @description * Sets the form to its untouched state. * * This method can be called to remove the 'ng-touched' class and set the form controls to their * untouched state (ng-untouched class). * * Setting a form controls back to their untouched state is often useful when setting the form * back to its pristine state. */ form.$setUntouched = function() { forEach(controls, function(control) { control.$setUntouched(); }); }; /** * @ngdoc method * @name form.FormController#$setSubmitted * * @description * Sets the form to its submitted state. */ form.$setSubmitted = function() { $animate.addClass(element, SUBMITTED_CLASS); form.$submitted = true; form.$$parentForm.$setSubmitted(); }; } /** * @ngdoc directive * @name ngForm * @restrict EAC * * @description * Nestable alias of {@link ng.directive:form `form`} directive. HTML * does not allow nesting of form elements. It is useful to nest forms, for example if the validity of a * sub-group of controls needs to be determined. * * Note: the purpose of `ngForm` is to group controls, * but not to be a replacement for the `
` tag with all of its capabilities * (e.g. posting to the server, ...). * * @param {string=} ngForm|name Name of the form. If specified, the form controller will be published into * related scope, under this name. * */ /** * @ngdoc directive * @name form * @restrict E * * @description * Directive that instantiates * {@link form.FormController FormController}. * * If the `name` attribute is specified, the form controller is published onto the current scope under * this name. * * # Alias: {@link ng.directive:ngForm `ngForm`} * * In Angular, forms can be nested. This means that the outer form is valid when all of the child * forms are valid as well. However, browsers do not allow nesting of `` elements, so * Angular provides the {@link ng.directive:ngForm `ngForm`} directive, which behaves identically to * `form` but can be nested. Nested forms can be useful, for example, if the validity of a sub-group * of controls needs to be determined. * * # CSS classes * - `ng-valid` is set if the form is valid. * - `ng-invalid` is set if the form is invalid. * - `ng-pending` is set if the form is pending. * - `ng-pristine` is set if the form is pristine. * - `ng-dirty` is set if the form is dirty. * - `ng-submitted` is set if the form was submitted. * * Keep in mind that ngAnimate can detect each of these classes when added and removed. * * * # Submitting a form and preventing the default action * * Since the role of forms in client-side Angular applications is different than in classical * roundtrip apps, it is desirable for the browser not to translate the form submission into a full * page reload that sends the data to the server. Instead some javascript logic should be triggered * to handle the form submission in an application-specific way. * * For this reason, Angular prevents the default action (form submission to the server) unless the * `` element has an `action` attribute specified. * * You can use one of the following two ways to specify what javascript method should be called when * a form is submitted: * * - {@link ng.directive:ngSubmit ngSubmit} directive on the form element * - {@link ng.directive:ngClick ngClick} directive on the first * button or input field of type submit (input[type=submit]) * * To prevent double execution of the handler, use only one of the {@link ng.directive:ngSubmit ngSubmit} * or {@link ng.directive:ngClick ngClick} directives. * This is because of the following form submission rules in the HTML specification: * * - If a form has only one input field then hitting enter in this field triggers form submit * (`ngSubmit`) * - if a form has 2+ input fields and no buttons or input[type=submit] then hitting enter * doesn't trigger submit * - if a form has one or more input fields and one or more buttons or input[type=submit] then * hitting enter in any of the input fields will trigger the click handler on the *first* button or * input[type=submit] (`ngClick`) *and* a submit handler on the enclosing form (`ngSubmit`) * * Any pending `ngModelOptions` changes will take place immediately when an enclosing form is * submitted. Note that `ngClick` events will occur before the model is updated. Use `ngSubmit` * to have access to the updated model. * * ## Animation Hooks * * Animations in ngForm are triggered when any of the associated CSS classes are added and removed. * These classes are: `.ng-pristine`, `.ng-dirty`, `.ng-invalid` and `.ng-valid` as well as any * other validations that are performed within the form. Animations in ngForm are similar to how * they work in ngClass and animations can be hooked into using CSS transitions, keyframes as well * as JS animations. * * The following example shows a simple way to utilize CSS transitions to style a form element * that has been rendered as invalid after it has been validated: * * 
	 * //be sure to include ngAnimate as a module to hook into more
	 * //advanced animations
	 * .my-form {
	 *   transition:0.5s linear all;
	 *   background: white;
	 * }
	 * .my-form.ng-invalid {
	 *   background: red;
	 *   color:white;
	 * }
	 *
* * @example userType: Required!
userType = {{userType}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 it('should initialize to model', function() { var userType = element(by.binding('userType')); var valid = element(by.binding('myForm.input.$valid')); expect(userType.getText()).toContain('guest'); expect(valid.getText()).toContain('true'); }); it('should be invalid if empty', function() { var userType = element(by.binding('userType')); var valid = element(by.binding('myForm.input.$valid')); var userInput = element(by.model('userType')); userInput.clear(); userInput.sendKeys(''); expect(userType.getText()).toEqual('userType ='); expect(valid.getText()).toContain('false'); });
* * @param {string=} name Name of the form. If specified, the form controller will be published into * related scope, under this name. */ var formDirectiveFactory = function(isNgForm) { return ['$timeout', '$parse', function($timeout, $parse) { var formDirective = { name: 'form', restrict: isNgForm ? 'EAC' : 'E', require: ['form', '^^?form'], //first is the form's own ctrl, second is an optional parent form controller: FormController, compile: function ngFormCompile(formElement, attr) { // Setup initial state of the control formElement.addClass(PRISTINE_CLASS).addClass(VALID_CLASS); var nameAttr = attr.name ? 'name' : (isNgForm && attr.ngForm ? 'ngForm' : false); return { pre: function ngFormPreLink(scope, formElement, attr, ctrls) { var controller = ctrls[0]; // if `action` attr is not present on the form, prevent the default action (submission) if (!('action' in attr)) { // we can't use jq events because if a form is destroyed during submission the default // action is not prevented. see #1238 // // IE 9 is not affected because it doesn't fire a submit event and try to do a full // page reload if the form was destroyed by submission of the form via a click handler // on a button in the form. Looks like an IE9 specific bug. var handleFormSubmission = function(event) { scope.$apply(function() { controller.$commitViewValue(); controller.$setSubmitted(); }); event.preventDefault(); }; addEventListenerFn(formElement[0], 'submit', handleFormSubmission); // unregister the preventDefault listener so that we don't not leak memory but in a // way that will achieve the prevention of the default action. formElement.on('$destroy', function() { $timeout(function() { removeEventListenerFn(formElement[0], 'submit', handleFormSubmission); }, 0, false); }); } var parentFormCtrl = ctrls[1] || controller.$$parentForm; parentFormCtrl.$addControl(controller); var setter = nameAttr ? getSetter(controller.$name) : noop; if (nameAttr) { setter(scope, controller); attr.$observe(nameAttr, function(newValue) { if (controller.$name === newValue) return; setter(scope, undefined); controller.$$parentForm.$$renameControl(controller, newValue); setter = getSetter(controller.$name); setter(scope, controller); }); } formElement.on('$destroy', function() { controller.$$parentForm.$removeControl(controller); setter(scope, undefined); extend(controller, nullFormCtrl); //stop propagating child destruction handlers upwards }); } }; } }; return formDirective; function getSetter(expression) { if (expression === '') { //create an assignable expression, so forms with an empty name can be renamed later return $parse('this[""]').assign; } return $parse(expression).assign || noop; } }]; }; var formDirective = formDirectiveFactory(); var ngFormDirective = formDirectiveFactory(true); /* global VALID_CLASS: false, INVALID_CLASS: false, PRISTINE_CLASS: false, DIRTY_CLASS: false, UNTOUCHED_CLASS: false, TOUCHED_CLASS: false, ngModelMinErr: false, */ // Regex code was initially obtained from SO prior to modification: https://stackoverflow.com/questions/3143070/javascript-regex-iso-datetime#answer-3143231 var ISO_DATE_REGEXP = /^\d{4,}-[01]\d-[0-3]\dT[0-2]\d:[0-5]\d:[0-5]\d\.\d+(?:[+-][0-2]\d:[0-5]\d|Z)$/; // See valid URLs in RFC3987 (http://tools.ietf.org/html/rfc3987) // Note: We are being more lenient, because browsers are too. // 1. Scheme // 2. Slashes // 3. Username // 4. Password // 5. Hostname // 6. Port // 7. Path // 8. Query // 9. Fragment // 1111111111111111 222 333333 44444 555555555555555555555555 666 77777777 8888888 999 var URL_REGEXP = /^[a-z][a-z\d.+-]*:\/*(?:[^:@]+(?::[^@]+)?@)?(?:[^\s:/?#]+|\[[a-f\d:]+\])(?::\d+)?(?:\/[^?#]*)?(?:\?[^#]*)?(?:#.*)?$/i; /* jshint maxlen:220 */ var EMAIL_REGEXP = /^(?=.{1,254}$)(?=.{1,64}@)[-!#$%&'*+\/0-9=?A-Z^_`a-z{|}~]+(\.[-!#$%&'*+\/0-9=?A-Z^_`a-z{|}~]+)*@[A-Za-z0-9]([A-Za-z0-9-]{0,61}[A-Za-z0-9])?(\.[A-Za-z0-9]([A-Za-z0-9-]{0,61}[A-Za-z0-9])?)*$/; /* jshint maxlen:200 */ var NUMBER_REGEXP = /^\s*(\-|\+)?(\d+|(\d*(\.\d*)))([eE][+-]?\d+)?\s*$/; var DATE_REGEXP = /^(\d{4,})-(\d{2})-(\d{2})$/; var DATETIMELOCAL_REGEXP = /^(\d{4,})-(\d\d)-(\d\d)T(\d\d):(\d\d)(?::(\d\d)(\.\d{1,3})?)?$/; var WEEK_REGEXP = /^(\d{4,})-W(\d\d)$/; var MONTH_REGEXP = /^(\d{4,})-(\d\d)$/; var TIME_REGEXP = /^(\d\d):(\d\d)(?::(\d\d)(\.\d{1,3})?)?$/; var PARTIAL_VALIDATION_EVENTS = 'keydown wheel mousedown'; var PARTIAL_VALIDATION_TYPES = createMap(); forEach('date,datetime-local,month,time,week'.split(','), function(type) { PARTIAL_VALIDATION_TYPES[type] = true; }); var inputType = { /** * @ngdoc input * @name input[text] * * @description * Standard HTML text input with angular data binding, inherited by most of the `input` elements. * * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} required Adds `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {number=} ngMinlength Sets `minlength` validation error key if the value is shorter than * minlength. * @param {number=} ngMaxlength Sets `maxlength` validation error key if the value is longer than * maxlength. Setting the attribute to a negative or non-numeric value, allows view values of * any length. * @param {string=} pattern Similar to `ngPattern` except that the attribute value is the actual string * that contains the regular expression body that will be converted to a regular expression * as in the ngPattern directive. * @param {string=} ngPattern Sets `pattern` validation error key if the ngModel {@link ngModel.NgModelController#$viewValue $viewValue} * does not match a RegExp found by evaluating the Angular expression given in the attribute value. * If the expression evaluates to a RegExp object, then this is used directly. * If the expression evaluates to a string, then it will be converted to a RegExp * after wrapping it in `^` and `$` characters. For instance, `"abc"` will be converted to * `new RegExp('^abc$')`.
* **Note:** Avoid using the `g` flag on the RegExp, as it will cause each successive search to * start at the index of the last search's match, thus not taking the whole input value into * account. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * @param {boolean=} [ngTrim=true] If set to false Angular will not automatically trim the input. * This parameter is ignored for input[type=password] controls, which will never trim the * input. * * @example
Required! Single word only!
text = {{example.text}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 var text = element(by.binding('example.text')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('example.text')); it('should initialize to model', function() { expect(text.getText()).toContain('guest'); expect(valid.getText()).toContain('true'); }); it('should be invalid if empty', function() { input.clear(); input.sendKeys(''); expect(text.getText()).toEqual('text ='); expect(valid.getText()).toContain('false'); }); it('should be invalid if multi word', function() { input.clear(); input.sendKeys('hello world'); expect(valid.getText()).toContain('false'); }); */ 'text': textInputType, /** * @ngdoc input * @name input[date] * * @description * Input with date validation and transformation. In browsers that do not yet support * the HTML5 date input, a text element will be used. In that case, text must be entered in a valid ISO-8601 * date format (yyyy-MM-dd), for example: `2009-01-06`. Since many * modern browsers do not yet support this input type, it is important to provide cues to users on the * expected input format via a placeholder or label. * * The model must always be a Date object, otherwise Angular will throw an error. * Invalid `Date` objects (dates whose `getTime()` is `NaN`) will be rendered as an empty string. * * The timezone to be used to read/write the `Date` instance in the model can be defined using * {@link ng.directive:ngModelOptions ngModelOptions}. By default, this is the timezone of the browser. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} min Sets the `min` validation error key if the value entered is less than `min`. This must be a * valid ISO date string (yyyy-MM-dd). You can also use interpolation inside this attribute * (e.g. `min="{{minDate | date:'yyyy-MM-dd'}}"`). Note that `min` will also add native HTML5 * constraint validation. * @param {string=} max Sets the `max` validation error key if the value entered is greater than `max`. This must be * a valid ISO date string (yyyy-MM-dd). You can also use interpolation inside this attribute * (e.g. `max="{{maxDate | date:'yyyy-MM-dd'}}"`). Note that `max` will also add native HTML5 * constraint validation. * @param {(date|string)=} ngMin Sets the `min` validation constraint to the Date / ISO date string * the `ngMin` expression evaluates to. Note that it does not set the `min` attribute. * @param {(date|string)=} ngMax Sets the `max` validation constraint to the Date / ISO date string * the `ngMax` expression evaluates to. Note that it does not set the `max` attribute. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
Required! Not a valid date!
value = {{example.value | date: "yyyy-MM-dd"}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 var value = element(by.binding('example.value | date: "yyyy-MM-dd"')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('example.value')); // currently protractor/webdriver does not support // sending keys to all known HTML5 input controls // for various browsers (see https://github.com/angular/protractor/issues/562). function setInput(val) { // set the value of the element and force validation. var scr = "var ipt = document.getElementById('exampleInput'); " + "ipt.value = '" + val + "';" + "angular.element(ipt).scope().$apply(function(s) { s.myForm[ipt.name].$setViewValue('" + val + "'); });"; browser.executeScript(scr); } it('should initialize to model', function() { expect(value.getText()).toContain('2013-10-22'); expect(valid.getText()).toContain('myForm.input.$valid = true'); }); it('should be invalid if empty', function() { setInput(''); expect(value.getText()).toEqual('value ='); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); it('should be invalid if over max', function() { setInput('2015-01-01'); expect(value.getText()).toContain(''); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); */ 'date': createDateInputType('date', DATE_REGEXP, createDateParser(DATE_REGEXP, ['yyyy', 'MM', 'dd']), 'yyyy-MM-dd'), /** * @ngdoc input * @name input[datetime-local] * * @description * Input with datetime validation and transformation. In browsers that do not yet support * the HTML5 date input, a text element will be used. In that case, the text must be entered in a valid ISO-8601 * local datetime format (yyyy-MM-ddTHH:mm:ss), for example: `2010-12-28T14:57:00`. * * The model must always be a Date object, otherwise Angular will throw an error. * Invalid `Date` objects (dates whose `getTime()` is `NaN`) will be rendered as an empty string. * * The timezone to be used to read/write the `Date` instance in the model can be defined using * {@link ng.directive:ngModelOptions ngModelOptions}. By default, this is the timezone of the browser. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} min Sets the `min` validation error key if the value entered is less than `min`. * This must be a valid ISO datetime format (yyyy-MM-ddTHH:mm:ss). You can also use interpolation * inside this attribute (e.g. `min="{{minDatetimeLocal | date:'yyyy-MM-ddTHH:mm:ss'}}"`). * Note that `min` will also add native HTML5 constraint validation. * @param {string=} max Sets the `max` validation error key if the value entered is greater than `max`. * This must be a valid ISO datetime format (yyyy-MM-ddTHH:mm:ss). You can also use interpolation * inside this attribute (e.g. `max="{{maxDatetimeLocal | date:'yyyy-MM-ddTHH:mm:ss'}}"`). * Note that `max` will also add native HTML5 constraint validation. * @param {(date|string)=} ngMin Sets the `min` validation error key to the Date / ISO datetime string * the `ngMin` expression evaluates to. Note that it does not set the `min` attribute. * @param {(date|string)=} ngMax Sets the `max` validation error key to the Date / ISO datetime string * the `ngMax` expression evaluates to. Note that it does not set the `max` attribute. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
Required! Not a valid date!
value = {{example.value | date: "yyyy-MM-ddTHH:mm:ss"}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 var value = element(by.binding('example.value | date: "yyyy-MM-ddTHH:mm:ss"')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('example.value')); // currently protractor/webdriver does not support // sending keys to all known HTML5 input controls // for various browsers (https://github.com/angular/protractor/issues/562). function setInput(val) { // set the value of the element and force validation. var scr = "var ipt = document.getElementById('exampleInput'); " + "ipt.value = '" + val + "';" + "angular.element(ipt).scope().$apply(function(s) { s.myForm[ipt.name].$setViewValue('" + val + "'); });"; browser.executeScript(scr); } it('should initialize to model', function() { expect(value.getText()).toContain('2010-12-28T14:57:00'); expect(valid.getText()).toContain('myForm.input.$valid = true'); }); it('should be invalid if empty', function() { setInput(''); expect(value.getText()).toEqual('value ='); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); it('should be invalid if over max', function() { setInput('2015-01-01T23:59:00'); expect(value.getText()).toContain(''); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); */ 'datetime-local': createDateInputType('datetimelocal', DATETIMELOCAL_REGEXP, createDateParser(DATETIMELOCAL_REGEXP, ['yyyy', 'MM', 'dd', 'HH', 'mm', 'ss', 'sss']), 'yyyy-MM-ddTHH:mm:ss.sss'), /** * @ngdoc input * @name input[time] * * @description * Input with time validation and transformation. In browsers that do not yet support * the HTML5 time input, a text element will be used. In that case, the text must be entered in a valid ISO-8601 * local time format (HH:mm:ss), for example: `14:57:00`. Model must be a Date object. This binding will always output a * Date object to the model of January 1, 1970, or local date `new Date(1970, 0, 1, HH, mm, ss)`. * * The model must always be a Date object, otherwise Angular will throw an error. * Invalid `Date` objects (dates whose `getTime()` is `NaN`) will be rendered as an empty string. * * The timezone to be used to read/write the `Date` instance in the model can be defined using * {@link ng.directive:ngModelOptions ngModelOptions}. By default, this is the timezone of the browser. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} min Sets the `min` validation error key if the value entered is less than `min`. * This must be a valid ISO time format (HH:mm:ss). You can also use interpolation inside this * attribute (e.g. `min="{{minTime | date:'HH:mm:ss'}}"`). Note that `min` will also add * native HTML5 constraint validation. * @param {string=} max Sets the `max` validation error key if the value entered is greater than `max`. * This must be a valid ISO time format (HH:mm:ss). You can also use interpolation inside this * attribute (e.g. `max="{{maxTime | date:'HH:mm:ss'}}"`). Note that `max` will also add * native HTML5 constraint validation. * @param {(date|string)=} ngMin Sets the `min` validation constraint to the Date / ISO time string the * `ngMin` expression evaluates to. Note that it does not set the `min` attribute. * @param {(date|string)=} ngMax Sets the `max` validation constraint to the Date / ISO time string the * `ngMax` expression evaluates to. Note that it does not set the `max` attribute. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
Required! Not a valid date!
value = {{example.value | date: "HH:mm:ss"}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 var value = element(by.binding('example.value | date: "HH:mm:ss"')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('example.value')); // currently protractor/webdriver does not support // sending keys to all known HTML5 input controls // for various browsers (https://github.com/angular/protractor/issues/562). function setInput(val) { // set the value of the element and force validation. var scr = "var ipt = document.getElementById('exampleInput'); " + "ipt.value = '" + val + "';" + "angular.element(ipt).scope().$apply(function(s) { s.myForm[ipt.name].$setViewValue('" + val + "'); });"; browser.executeScript(scr); } it('should initialize to model', function() { expect(value.getText()).toContain('14:57:00'); expect(valid.getText()).toContain('myForm.input.$valid = true'); }); it('should be invalid if empty', function() { setInput(''); expect(value.getText()).toEqual('value ='); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); it('should be invalid if over max', function() { setInput('23:59:00'); expect(value.getText()).toContain(''); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); */ 'time': createDateInputType('time', TIME_REGEXP, createDateParser(TIME_REGEXP, ['HH', 'mm', 'ss', 'sss']), 'HH:mm:ss.sss'), /** * @ngdoc input * @name input[week] * * @description * Input with week-of-the-year validation and transformation to Date. In browsers that do not yet support * the HTML5 week input, a text element will be used. In that case, the text must be entered in a valid ISO-8601 * week format (yyyy-W##), for example: `2013-W02`. * * The model must always be a Date object, otherwise Angular will throw an error. * Invalid `Date` objects (dates whose `getTime()` is `NaN`) will be rendered as an empty string. * * The timezone to be used to read/write the `Date` instance in the model can be defined using * {@link ng.directive:ngModelOptions ngModelOptions}. By default, this is the timezone of the browser. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} min Sets the `min` validation error key if the value entered is less than `min`. * This must be a valid ISO week format (yyyy-W##). You can also use interpolation inside this * attribute (e.g. `min="{{minWeek | date:'yyyy-Www'}}"`). Note that `min` will also add * native HTML5 constraint validation. * @param {string=} max Sets the `max` validation error key if the value entered is greater than `max`. * This must be a valid ISO week format (yyyy-W##). You can also use interpolation inside this * attribute (e.g. `max="{{maxWeek | date:'yyyy-Www'}}"`). Note that `max` will also add * native HTML5 constraint validation. * @param {(date|string)=} ngMin Sets the `min` validation constraint to the Date / ISO week string * the `ngMin` expression evaluates to. Note that it does not set the `min` attribute. * @param {(date|string)=} ngMax Sets the `max` validation constraint to the Date / ISO week string * the `ngMax` expression evaluates to. Note that it does not set the `max` attribute. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
Required! Not a valid date!
value = {{example.value | date: "yyyy-Www"}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 var value = element(by.binding('example.value | date: "yyyy-Www"')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('example.value')); // currently protractor/webdriver does not support // sending keys to all known HTML5 input controls // for various browsers (https://github.com/angular/protractor/issues/562). function setInput(val) { // set the value of the element and force validation. var scr = "var ipt = document.getElementById('exampleInput'); " + "ipt.value = '" + val + "';" + "angular.element(ipt).scope().$apply(function(s) { s.myForm[ipt.name].$setViewValue('" + val + "'); });"; browser.executeScript(scr); } it('should initialize to model', function() { expect(value.getText()).toContain('2013-W01'); expect(valid.getText()).toContain('myForm.input.$valid = true'); }); it('should be invalid if empty', function() { setInput(''); expect(value.getText()).toEqual('value ='); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); it('should be invalid if over max', function() { setInput('2015-W01'); expect(value.getText()).toContain(''); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); */ 'week': createDateInputType('week', WEEK_REGEXP, weekParser, 'yyyy-Www'), /** * @ngdoc input * @name input[month] * * @description * Input with month validation and transformation. In browsers that do not yet support * the HTML5 month input, a text element will be used. In that case, the text must be entered in a valid ISO-8601 * month format (yyyy-MM), for example: `2009-01`. * * The model must always be a Date object, otherwise Angular will throw an error. * Invalid `Date` objects (dates whose `getTime()` is `NaN`) will be rendered as an empty string. * If the model is not set to the first of the month, the next view to model update will set it * to the first of the month. * * The timezone to be used to read/write the `Date` instance in the model can be defined using * {@link ng.directive:ngModelOptions ngModelOptions}. By default, this is the timezone of the browser. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} min Sets the `min` validation error key if the value entered is less than `min`. * This must be a valid ISO month format (yyyy-MM). You can also use interpolation inside this * attribute (e.g. `min="{{minMonth | date:'yyyy-MM'}}"`). Note that `min` will also add * native HTML5 constraint validation. * @param {string=} max Sets the `max` validation error key if the value entered is greater than `max`. * This must be a valid ISO month format (yyyy-MM). You can also use interpolation inside this * attribute (e.g. `max="{{maxMonth | date:'yyyy-MM'}}"`). Note that `max` will also add * native HTML5 constraint validation. * @param {(date|string)=} ngMin Sets the `min` validation constraint to the Date / ISO week string * the `ngMin` expression evaluates to. Note that it does not set the `min` attribute. * @param {(date|string)=} ngMax Sets the `max` validation constraint to the Date / ISO week string * the `ngMax` expression evaluates to. Note that it does not set the `max` attribute. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
Required! Not a valid month!
value = {{example.value | date: "yyyy-MM"}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 var value = element(by.binding('example.value | date: "yyyy-MM"')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('example.value')); // currently protractor/webdriver does not support // sending keys to all known HTML5 input controls // for various browsers (https://github.com/angular/protractor/issues/562). function setInput(val) { // set the value of the element and force validation. var scr = "var ipt = document.getElementById('exampleInput'); " + "ipt.value = '" + val + "';" + "angular.element(ipt).scope().$apply(function(s) { s.myForm[ipt.name].$setViewValue('" + val + "'); });"; browser.executeScript(scr); } it('should initialize to model', function() { expect(value.getText()).toContain('2013-10'); expect(valid.getText()).toContain('myForm.input.$valid = true'); }); it('should be invalid if empty', function() { setInput(''); expect(value.getText()).toEqual('value ='); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); it('should be invalid if over max', function() { setInput('2015-01'); expect(value.getText()).toContain(''); expect(valid.getText()).toContain('myForm.input.$valid = false'); }); */ 'month': createDateInputType('month', MONTH_REGEXP, createDateParser(MONTH_REGEXP, ['yyyy', 'MM']), 'yyyy-MM'), /** * @ngdoc input * @name input[number] * * @description * Text input with number validation and transformation. Sets the `number` validation * error if not a valid number. * *
* The model must always be of type `number` otherwise Angular will throw an error. * Be aware that a string containing a number is not enough. See the {@link ngModel:numfmt} * error docs for more information and an example of how to convert your model if necessary. *
* * ## Issues with HTML5 constraint validation * * In browsers that follow the * [HTML5 specification](https://html.spec.whatwg.org/multipage/forms.html#number-state-%28type=number%29), * `input[number]` does not work as expected with {@link ngModelOptions `ngModelOptions.allowInvalid`}. * If a non-number is entered in the input, the browser will report the value as an empty string, * which means the view / model values in `ngModel` and subsequently the scope value * will also be an empty string. * * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} min Sets the `min` validation error key if the value entered is less than `min`. * @param {string=} max Sets the `max` validation error key if the value entered is greater than `max`. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {number=} ngMinlength Sets `minlength` validation error key if the value is shorter than * minlength. * @param {number=} ngMaxlength Sets `maxlength` validation error key if the value is longer than * maxlength. Setting the attribute to a negative or non-numeric value, allows view values of * any length. * @param {string=} pattern Similar to `ngPattern` except that the attribute value is the actual string * that contains the regular expression body that will be converted to a regular expression * as in the ngPattern directive. * @param {string=} ngPattern Sets `pattern` validation error key if the ngModel {@link ngModel.NgModelController#$viewValue $viewValue} * does not match a RegExp found by evaluating the Angular expression given in the attribute value. * If the expression evaluates to a RegExp object, then this is used directly. * If the expression evaluates to a string, then it will be converted to a RegExp * after wrapping it in `^` and `$` characters. For instance, `"abc"` will be converted to * `new RegExp('^abc$')`.
* **Note:** Avoid using the `g` flag on the RegExp, as it will cause each successive search to * start at the index of the last search's match, thus not taking the whole input value into * account. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
Required! Not valid number!
value = {{example.value}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
 var value = element(by.binding('example.value')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('example.value')); it('should initialize to model', function() { expect(value.getText()).toContain('12'); expect(valid.getText()).toContain('true'); }); it('should be invalid if empty', function() { input.clear(); input.sendKeys(''); expect(value.getText()).toEqual('value ='); expect(valid.getText()).toContain('false'); }); it('should be invalid if over max', function() { input.clear(); input.sendKeys('123'); expect(value.getText()).toEqual('value ='); expect(valid.getText()).toContain('false'); }); */ 'number': numberInputType, /** * @ngdoc input * @name input[url] * * @description * Text input with URL validation. Sets the `url` validation error key if the content is not a * valid URL. * *
* **Note:** `input[url]` uses a regex to validate urls that is derived from the regex * used in Chromium. If you need stricter validation, you can use `ng-pattern` or modify * the built-in validators (see the {@link guide/forms Forms guide}) *
* * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {number=} ngMinlength Sets `minlength` validation error key if the value is shorter than * minlength. * @param {number=} ngMaxlength Sets `maxlength` validation error key if the value is longer than * maxlength. Setting the attribute to a negative or non-numeric value, allows view values of * any length. * @param {string=} pattern Similar to `ngPattern` except that the attribute value is the actual string * that contains the regular expression body that will be converted to a regular expression * as in the ngPattern directive. * @param {string=} ngPattern Sets `pattern` validation error key if the ngModel {@link ngModel.NgModelController#$viewValue $viewValue} * does not match a RegExp found by evaluating the Angular expression given in the attribute value. * If the expression evaluates to a RegExp object, then this is used directly. * If the expression evaluates to a string, then it will be converted to a RegExp * after wrapping it in `^` and `$` characters. For instance, `"abc"` will be converted to * `new RegExp('^abc$')`.
* **Note:** Avoid using the `g` flag on the RegExp, as it will cause each successive search to * start at the index of the last search's match, thus not taking the whole input value into * account. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
var text = element(by.binding('url.text')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('url.text')); it('should initialize to model', function() { expect(text.getText()).toContain('http://google.com'); expect(valid.getText()).toContain('true'); }); it('should be invalid if empty', function() { input.clear(); input.sendKeys(''); expect(text.getText()).toEqual('text ='); expect(valid.getText()).toContain('false'); }); it('should be invalid if not url', function() { input.clear(); input.sendKeys('box'); expect(valid.getText()).toContain('false'); }); */ 'url': urlInputType, /** * @ngdoc input * @name input[email] * * @description * Text input with email validation. Sets the `email` validation error key if not a valid email * address. * *
* **Note:** `input[email]` uses a regex to validate email addresses that is derived from the regex * used in Chromium. If you need stricter validation (e.g. requiring a top-level domain), you can * use `ng-pattern` or modify the built-in validators (see the {@link guide/forms Forms guide}) *
* * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {number=} ngMinlength Sets `minlength` validation error key if the value is shorter than * minlength. * @param {number=} ngMaxlength Sets `maxlength` validation error key if the value is longer than * maxlength. Setting the attribute to a negative or non-numeric value, allows view values of * any length. * @param {string=} pattern Similar to `ngPattern` except that the attribute value is the actual string * that contains the regular expression body that will be converted to a regular expression * as in the ngPattern directive. * @param {string=} ngPattern Sets `pattern` validation error key if the ngModel {@link ngModel.NgModelController#$viewValue $viewValue} * does not match a RegExp found by evaluating the Angular expression given in the attribute value. * If the expression evaluates to a RegExp object, then this is used directly. * If the expression evaluates to a string, then it will be converted to a RegExp * after wrapping it in `^` and `$` characters. For instance, `"abc"` will be converted to * `new RegExp('^abc$')`.
* **Note:** Avoid using the `g` flag on the RegExp, as it will cause each successive search to * start at the index of the last search's match, thus not taking the whole input value into * account. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example
Required! Not valid email!
text = {{email.text}}
myForm.input.$valid = {{myForm.input.$valid}}
myForm.input.$error = {{myForm.input.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
myForm.$error.email = {{!!myForm.$error.email}}
 var text = element(by.binding('email.text')); var valid = element(by.binding('myForm.input.$valid')); var input = element(by.model('email.text')); it('should initialize to model', function() { expect(text.getText()).toContain('me@example.com'); expect(valid.getText()).toContain('true'); }); it('should be invalid if empty', function() { input.clear(); input.sendKeys(''); expect(text.getText()).toEqual('text ='); expect(valid.getText()).toContain('false'); }); it('should be invalid if not email', function() { input.clear(); input.sendKeys('xxx'); expect(valid.getText()).toContain('false'); }); */ 'email': emailInputType, /** * @ngdoc input * @name input[radio] * * @description * HTML radio button. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string} value The value to which the `ngModel` expression should be set when selected. * Note that `value` only supports `string` values, i.e. the scope model needs to be a string, * too. Use `ngValue` if you need complex models (`number`, `object`, ...). * @param {string=} name Property name of the form under which the control is published. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * @param {string} ngValue Angular expression to which `ngModel` will be be set when the radio * is selected. Should be used instead of the `value` attribute if you need * a non-string `ngModel` (`boolean`, `array`, ...). * * @example



color = {{color.name | json}}
Note that `ng-value="specialValue"` sets radio item's value to be the value of `$scope.specialValue`. it('should change state', function() { var color = element(by.binding('color.name')); expect(color.getText()).toContain('blue'); element.all(by.model('color.name')).get(0).click(); expect(color.getText()).toContain('red'); }); */ 'radio': radioInputType, /** * @ngdoc input * @name input[checkbox] * * @description * HTML checkbox. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {expression=} ngTrueValue The value to which the expression should be set when selected. * @param {expression=} ngFalseValue The value to which the expression should be set when not selected. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * * @example


value1 = {{checkboxModel.value1}}
value2 = {{checkboxModel.value2}}
 it('should change state', function() { var value1 = element(by.binding('checkboxModel.value1')); var value2 = element(by.binding('checkboxModel.value2')); expect(value1.getText()).toContain('true'); expect(value2.getText()).toContain('YES'); element(by.model('checkboxModel.value1')).click(); element(by.model('checkboxModel.value2')).click(); expect(value1.getText()).toContain('false'); expect(value2.getText()).toContain('NO'); }); */ 'checkbox': checkboxInputType, 'hidden': noop, 'button': noop, 'submit': noop, 'reset': noop, 'file': noop }; function stringBasedInputType(ctrl) { ctrl.$formatters.push(function(value) { return ctrl.$isEmpty(value) ? value : value.toString(); }); } function textInputType(scope, element, attr, ctrl, $sniffer, $browser) { baseInputType(scope, element, attr, ctrl, $sniffer, $browser); stringBasedInputType(ctrl); } function baseInputType(scope, element, attr, ctrl, $sniffer, $browser) { var type = lowercase(element[0].type); // In composition mode, users are still inputing intermediate text buffer, // hold the listener until composition is done. // More about composition events: https://developer.mozilla.org/en-US/docs/Web/API/CompositionEvent if (!$sniffer.android) { var composing = false; element.on('compositionstart', function() { composing = true; }); element.on('compositionend', function() { composing = false; listener(); }); } var timeout; var listener = function(ev) { if (timeout) { $browser.defer.cancel(timeout); timeout = null; } if (composing) return; var value = element.val(), event = ev && ev.type; // By default we will trim the value // If the attribute ng-trim exists we will avoid trimming // If input type is 'password', the value is never trimmed if (type !== 'password' && (!attr.ngTrim || attr.ngTrim !== 'false')) { value = trim(value); } // If a control is suffering from bad input (due to native validators), browsers discard its // value, so it may be necessary to revalidate (by calling $setViewValue again) even if the // control's value is the same empty value twice in a row. if (ctrl.$viewValue !== value || (value === '' && ctrl.$$hasNativeValidators)) { ctrl.$setViewValue(value, event); } }; // if the browser does support "input" event, we are fine - except on IE9 which doesn't fire the // input event on backspace, delete or cut if ($sniffer.hasEvent('input')) { element.on('input', listener); } else { var deferListener = function(ev, input, origValue) { if (!timeout) { timeout = $browser.defer(function() { timeout = null; if (!input || input.value !== origValue) { listener(ev); } }); } }; element.on('keydown', function(event) { var key = event.keyCode; // ignore // command modifiers arrows if (key === 91 || (15 < key && key < 19) || (37 <= key && key <= 40)) return; deferListener(event, this, this.value); }); // if user modifies input value using context menu in IE, we need "paste" and "cut" events to catch it if ($sniffer.hasEvent('paste')) { element.on('paste cut', deferListener); } } // if user paste into input using mouse on older browser // or form autocomplete on newer browser, we need "change" event to catch it element.on('change', listener); // Some native input types (date-family) have the ability to change validity without // firing any input/change events. // For these event types, when native validators are present and the browser supports the type, // check for validity changes on various DOM events. if (PARTIAL_VALIDATION_TYPES[type] && ctrl.$$hasNativeValidators && type === attr.type) { element.on(PARTIAL_VALIDATION_EVENTS, function(ev) { if (!timeout) { var validity = this[VALIDITY_STATE_PROPERTY]; var origBadInput = validity.badInput; var origTypeMismatch = validity.typeMismatch; timeout = $browser.defer(function() { timeout = null; if (validity.badInput !== origBadInput || validity.typeMismatch !== origTypeMismatch) { listener(ev); } }); } }); } ctrl.$render = function() { // Workaround for Firefox validation #12102. var value = ctrl.$isEmpty(ctrl.$viewValue) ? '' : ctrl.$viewValue; if (element.val() !== value) { element.val(value); } }; } function weekParser(isoWeek, existingDate) { if (isDate(isoWeek)) { return isoWeek; } if (isString(isoWeek)) { WEEK_REGEXP.lastIndex = 0; var parts = WEEK_REGEXP.exec(isoWeek); if (parts) { var year = +parts[1], week = +parts[2], hours = 0, minutes = 0, seconds = 0, milliseconds = 0, firstThurs = getFirstThursdayOfYear(year), addDays = (week - 1) * 7; if (existingDate) { hours = existingDate.getHours(); minutes = existingDate.getMinutes(); seconds = existingDate.getSeconds(); milliseconds = existingDate.getMilliseconds(); } return new Date(year, 0, firstThurs.getDate() + addDays, hours, minutes, seconds, milliseconds); } } return NaN; } function createDateParser(regexp, mapping) { return function(iso, date) { var parts, map; if (isDate(iso)) { return iso; } if (isString(iso)) { // When a date is JSON'ified to wraps itself inside of an extra // set of double quotes. This makes the date parsing code unable // to match the date string and parse it as a date. if (iso.charAt(0) == '"' && iso.charAt(iso.length - 1) == '"') { iso = iso.substring(1, iso.length - 1); } if (ISO_DATE_REGEXP.test(iso)) { return new Date(iso); } regexp.lastIndex = 0; parts = regexp.exec(iso); if (parts) { parts.shift(); if (date) { map = { yyyy: date.getFullYear(), MM: date.getMonth() + 1, dd: date.getDate(), HH: date.getHours(), mm: date.getMinutes(), ss: date.getSeconds(), sss: date.getMilliseconds() / 1000 }; } else { map = { yyyy: 1970, MM: 1, dd: 1, HH: 0, mm: 0, ss: 0, sss: 0 }; } forEach(parts, function(part, index) { if (index < mapping.length) { map[mapping[index]] = +part; } }); return new Date(map.yyyy, map.MM - 1, map.dd, map.HH, map.mm, map.ss || 0, map.sss * 1000 || 0); } } return NaN; }; } function createDateInputType(type, regexp, parseDate, format) { return function dynamicDateInputType(scope, element, attr, ctrl, $sniffer, $browser, $filter) { badInputChecker(scope, element, attr, ctrl); baseInputType(scope, element, attr, ctrl, $sniffer, $browser); var timezone = ctrl && ctrl.$options && ctrl.$options.timezone; var previousDate; ctrl.$$parserName = type; ctrl.$parsers.push(function(value) { if (ctrl.$isEmpty(value)) return null; if (regexp.test(value)) { // Note: We cannot read ctrl.$modelValue, as there might be a different // parser/formatter in the processing chain so that the model // contains some different data format! var parsedDate = parseDate(value, previousDate); if (timezone) { parsedDate = convertTimezoneToLocal(parsedDate, timezone); } return parsedDate; } return undefined; }); ctrl.$formatters.push(function(value) { if (value && !isDate(value)) { throw ngModelMinErr('datefmt', 'Expected `{0}` to be a date', value); } if (isValidDate(value)) { previousDate = value; if (previousDate && timezone) { previousDate = convertTimezoneToLocal(previousDate, timezone, true); } return $filter('date')(value, format, timezone); } else { previousDate = null; return ''; } }); if (isDefined(attr.min) || attr.ngMin) { var minVal; ctrl.$validators.min = function(value) { return !isValidDate(value) || isUndefined(minVal) || parseDate(value) >= minVal; }; attr.$observe('min', function(val) { minVal = parseObservedDateValue(val); ctrl.$validate(); }); } if (isDefined(attr.max) || attr.ngMax) { var maxVal; ctrl.$validators.max = function(value) { return !isValidDate(value) || isUndefined(maxVal) || parseDate(value) <= maxVal; }; attr.$observe('max', function(val) { maxVal = parseObservedDateValue(val); ctrl.$validate(); }); } function isValidDate(value) { // Invalid Date: getTime() returns NaN return value && !(value.getTime && value.getTime() !== value.getTime()); } function parseObservedDateValue(val) { return isDefined(val) && !isDate(val) ? parseDate(val) || undefined : val; } }; } function badInputChecker(scope, element, attr, ctrl) { var node = element[0]; var nativeValidation = ctrl.$$hasNativeValidators = isObject(node.validity); if (nativeValidation) { ctrl.$parsers.push(function(value) { var validity = element.prop(VALIDITY_STATE_PROPERTY) || {}; return validity.badInput || validity.typeMismatch ? undefined : value; }); } } function numberInputType(scope, element, attr, ctrl, $sniffer, $browser) { badInputChecker(scope, element, attr, ctrl); baseInputType(scope, element, attr, ctrl, $sniffer, $browser); ctrl.$$parserName = 'number'; ctrl.$parsers.push(function(value) { if (ctrl.$isEmpty(value)) return null; if (NUMBER_REGEXP.test(value)) return parseFloat(value); return undefined; }); ctrl.$formatters.push(function(value) { if (!ctrl.$isEmpty(value)) { if (!isNumber(value)) { throw ngModelMinErr('numfmt', 'Expected `{0}` to be a number', value); } value = value.toString(); } return value; }); if (isDefined(attr.min) || attr.ngMin) { var minVal; ctrl.$validators.min = function(value) { return ctrl.$isEmpty(value) || isUndefined(minVal) || value >= minVal; }; attr.$observe('min', function(val) { if (isDefined(val) && !isNumber(val)) { val = parseFloat(val); } minVal = isNumber(val) && !isNaN(val) ? val : undefined; // TODO(matsko): implement validateLater to reduce number of validations ctrl.$validate(); }); } if (isDefined(attr.max) || attr.ngMax) { var maxVal; ctrl.$validators.max = function(value) { return ctrl.$isEmpty(value) || isUndefined(maxVal) || value <= maxVal; }; attr.$observe('max', function(val) { if (isDefined(val) && !isNumber(val)) { val = parseFloat(val); } maxVal = isNumber(val) && !isNaN(val) ? val : undefined; // TODO(matsko): implement validateLater to reduce number of validations ctrl.$validate(); }); } } function urlInputType(scope, element, attr, ctrl, $sniffer, $browser) { // Note: no badInputChecker here by purpose as `url` is only a validation // in browsers, i.e. we can always read out input.value even if it is not valid! baseInputType(scope, element, attr, ctrl, $sniffer, $browser); stringBasedInputType(ctrl); ctrl.$$parserName = 'url'; ctrl.$validators.url = function(modelValue, viewValue) { var value = modelValue || viewValue; return ctrl.$isEmpty(value) || URL_REGEXP.test(value); }; } function emailInputType(scope, element, attr, ctrl, $sniffer, $browser) { // Note: no badInputChecker here by purpose as `url` is only a validation // in browsers, i.e. we can always read out input.value even if it is not valid! baseInputType(scope, element, attr, ctrl, $sniffer, $browser); stringBasedInputType(ctrl); ctrl.$$parserName = 'email'; ctrl.$validators.email = function(modelValue, viewValue) { var value = modelValue || viewValue; return ctrl.$isEmpty(value) || EMAIL_REGEXP.test(value); }; } function radioInputType(scope, element, attr, ctrl) { // make the name unique, if not defined if (isUndefined(attr.name)) { element.attr('name', nextUid()); } var listener = function(ev) { if (element[0].checked) { ctrl.$setViewValue(attr.value, ev && ev.type); } }; element.on('click', listener); ctrl.$render = function() { var value = attr.value; element[0].checked = (value == ctrl.$viewValue); }; attr.$observe('value', ctrl.$render); } function parseConstantExpr($parse, context, name, expression, fallback) { var parseFn; if (isDefined(expression)) { parseFn = $parse(expression); if (!parseFn.constant) { throw ngModelMinErr('constexpr', 'Expected constant expression for `{0}`, but saw ' + '`{1}`.', name, expression); } return parseFn(context); } return fallback; } function checkboxInputType(scope, element, attr, ctrl, $sniffer, $browser, $filter, $parse) { var trueValue = parseConstantExpr($parse, scope, 'ngTrueValue', attr.ngTrueValue, true); var falseValue = parseConstantExpr($parse, scope, 'ngFalseValue', attr.ngFalseValue, false); var listener = function(ev) { ctrl.$setViewValue(element[0].checked, ev && ev.type); }; element.on('click', listener); ctrl.$render = function() { element[0].checked = ctrl.$viewValue; }; // Override the standard `$isEmpty` because the $viewValue of an empty checkbox is always set to `false` // This is because of the parser below, which compares the `$modelValue` with `trueValue` to convert // it to a boolean. ctrl.$isEmpty = function(value) { return value === false; }; ctrl.$formatters.push(function(value) { return equals(value, trueValue); }); ctrl.$parsers.push(function(value) { return value ? trueValue : falseValue; }); } /** * @ngdoc directive * @name textarea * @restrict E * * @description * HTML textarea element control with angular data-binding. The data-binding and validation * properties of this element are exactly the same as those of the * {@link ng.directive:input input element}. * * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {string=} ngRequired Adds `required` attribute and `required` validation constraint to * the element when the ngRequired expression evaluates to true. Use `ngRequired` instead of * `required` when you want to data-bind to the `required` attribute. * @param {number=} ngMinlength Sets `minlength` validation error key if the value is shorter than * minlength. * @param {number=} ngMaxlength Sets `maxlength` validation error key if the value is longer than * maxlength. Setting the attribute to a negative or non-numeric value, allows view values of any * length. * @param {string=} ngPattern Sets `pattern` validation error key if the ngModel {@link ngModel.NgModelController#$viewValue $viewValue} * does not match a RegExp found by evaluating the Angular expression given in the attribute value. * If the expression evaluates to a RegExp object, then this is used directly. * If the expression evaluates to a string, then it will be converted to a RegExp * after wrapping it in `^` and `$` characters. For instance, `"abc"` will be converted to * `new RegExp('^abc$')`.
* **Note:** Avoid using the `g` flag on the RegExp, as it will cause each successive search to * start at the index of the last search's match, thus not taking the whole input value into * account. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * @param {boolean=} [ngTrim=true] If set to false Angular will not automatically trim the input. */ /** * @ngdoc directive * @name input * @restrict E * * @description * HTML input element control. When used together with {@link ngModel `ngModel`}, it provides data-binding, * input state control, and validation. * Input control follows HTML5 input types and polyfills the HTML5 validation behavior for older browsers. * *
* **Note:** Not every feature offered is available for all input types. * Specifically, data binding and event handling via `ng-model` is unsupported for `input[file]`. *
* * @param {string} ngModel Assignable angular expression to data-bind to. * @param {string=} name Property name of the form under which the control is published. * @param {string=} required Sets `required` validation error key if the value is not entered. * @param {boolean=} ngRequired Sets `required` attribute if set to true * @param {number=} ngMinlength Sets `minlength` validation error key if the value is shorter than * minlength. * @param {number=} ngMaxlength Sets `maxlength` validation error key if the value is longer than * maxlength. Setting the attribute to a negative or non-numeric value, allows view values of any * length. * @param {string=} ngPattern Sets `pattern` validation error key if the ngModel {@link ngModel.NgModelController#$viewValue $viewValue} * value does not match a RegExp found by evaluating the Angular expression given in the attribute value. * If the expression evaluates to a RegExp object, then this is used directly. * If the expression evaluates to a string, then it will be converted to a RegExp * after wrapping it in `^` and `$` characters. For instance, `"abc"` will be converted to * `new RegExp('^abc$')`.
* **Note:** Avoid using the `g` flag on the RegExp, as it will cause each successive search to * start at the index of the last search's match, thus not taking the whole input value into * account. * @param {string=} ngChange Angular expression to be executed when input changes due to user * interaction with the input element. * @param {boolean=} [ngTrim=true] If set to false Angular will not automatically trim the input. * This parameter is ignored for input[type=password] controls, which will never trim the * input. * * @example
Required!
Too short! Too long!
user = {{user}}
myForm.userName.$valid = {{myForm.userName.$valid}}
myForm.userName.$error = {{myForm.userName.$error}}
myForm.lastName.$valid = {{myForm.lastName.$valid}}
myForm.lastName.$error = {{myForm.lastName.$error}}
myForm.$valid = {{myForm.$valid}}
myForm.$error.required = {{!!myForm.$error.required}}
myForm.$error.minlength = {{!!myForm.$error.minlength}}
myForm.$error.maxlength = {{!!myForm.$error.maxlength}}
 var user = element(by.exactBinding('user')); var userNameValid = element(by.binding('myForm.userName.$valid')); var lastNameValid = element(by.binding('myForm.lastName.$valid')); var lastNameError = element(by.binding('myForm.lastName.$error')); var formValid = element(by.binding('myForm.$valid')); var userNameInput = element(by.model('user.name')); var userLastInput = element(by.model('user.last')); it('should initialize to model', function() { expect(user.getText()).toContain('{"name":"guest","last":"visitor"}'); expect(userNameValid.getText()).toContain('true'); expect(formValid.getText()).toContain('true'); }); it('should be invalid if empty when required', function() { userNameInput.clear(); userNameInput.sendKeys(''); expect(user.getText()).toContain('{"last":"visitor"}'); expect(userNameValid.getText()).toContain('false'); expect(formValid.getText()).toContain('false'); }); it('should be valid if empty when min length is set', function() { userLastInput.clear(); userLastInput.sendKeys(''); expect(user.getText()).toContain('{"name":"guest","last":""}'); expect(lastNameValid.getText()).toContain('true'); expect(formValid.getText()).toContain('true'); }); it('should be invalid if less than required min length', function() { userLastInput.clear(); userLastInput.sendKeys('xx'); expect(user.getText()).toContain('{"name":"guest"}'); expect(lastNameValid.getText()).toContain('false'); expect(lastNameError.getText()).toContain('minlength'); expect(formValid.getText()).toContain('false'); }); it('should be invalid if longer than max length', function() { userLastInput.clear(); userLastInput.sendKeys('some ridiculously long name'); expect(user.getText()).toContain('{"name":"guest"}'); expect(lastNameValid.getText()).toContain('false'); expect(lastNameError.getText()).toContain('maxlength'); expect(formValid.getText()).toContain('false'); }); */ var inputDirective = ['$browser', '$sniffer', '$filter', '$parse', function($browser, $sniffer, $filter, $parse) { return { restrict: 'E', require: ['?ngModel'], link: { pre: function(scope, element, attr, ctrls) { if (ctrls[0]) { (inputType[lowercase(attr.type)] || inputType.text)(scope, element, attr, ctrls[0], $sniffer, $browser, $filter, $parse); } } } }; }]; var CONSTANT_VALUE_REGEXP = /^(true|false|\d+)$/; /** * @ngdoc directive * @name ngValue * * @description * Binds the given expression to the value of `
it('should show correct pluralized string', function() { var withoutOffset = element.all(by.css('ng-pluralize')).get(0); var withOffset = element.all(by.css('ng-pluralize')).get(1); var countInput = element(by.model('personCount')); expect(withoutOffset.getText()).toEqual('1 person is viewing.'); expect(withOffset.getText()).toEqual('Igor is viewing.'); countInput.clear(); countInput.sendKeys('0'); expect(withoutOffset.getText()).toEqual('Nobody is viewing.'); expect(withOffset.getText()).toEqual('Nobody is viewing.'); countInput.clear(); countInput.sendKeys('2'); expect(withoutOffset.getText()).toEqual('2 people are viewing.'); expect(withOffset.getText()).toEqual('Igor and Misko are viewing.'); countInput.clear(); countInput.sendKeys('3'); expect(withoutOffset.getText()).toEqual('3 people are viewing.'); expect(withOffset.getText()).toEqual('Igor, Misko and one other person are viewing.'); countInput.clear(); countInput.sendKeys('4'); expect(withoutOffset.getText()).toEqual('4 people are viewing.'); expect(withOffset.getText()).toEqual('Igor, Misko and 2 other people are viewing.'); }); it('should show data-bound names', function() { var withOffset = element.all(by.css('ng-pluralize')).get(1); var personCount = element(by.model('personCount')); var person1 = element(by.model('person1')); var person2 = element(by.model('person2')); personCount.clear(); personCount.sendKeys('4'); person1.clear(); person1.sendKeys('Di'); person2.clear(); person2.sendKeys('Vojta'); expect(withOffset.getText()).toEqual('Di, Vojta and 2 other people are viewing.'); }); */ var ngPluralizeDirective = ['$locale', '$interpolate', '$log', function($locale, $interpolate, $log) { var BRACE = /{}/g, IS_WHEN = /^when(Minus)?(.+)$/; return { link: function(scope, element, attr) { var numberExp = attr.count, whenExp = attr.$attr.when && element.attr(attr.$attr.when), // we have {{}} in attrs offset = attr.offset || 0, whens = scope.$eval(whenExp) || {}, whensExpFns = {}, startSymbol = $interpolate.startSymbol(), endSymbol = $interpolate.endSymbol(), braceReplacement = startSymbol + numberExp + '-' + offset + endSymbol, watchRemover = angular.noop, lastCount; forEach(attr, function(expression, attributeName) { var tmpMatch = IS_WHEN.exec(attributeName); if (tmpMatch) { var whenKey = (tmpMatch[1] ? '-' : '') + lowercase(tmpMatch[2]); whens[whenKey] = element.attr(attr.$attr[attributeName]); } }); forEach(whens, function(expression, key) { whensExpFns[key] = $interpolate(expression.replace(BRACE, braceReplacement)); }); scope.$watch(numberExp, function ngPluralizeWatchAction(newVal) { var count = parseFloat(newVal); var countIsNaN = isNaN(count); if (!countIsNaN && !(count in whens)) { // If an explicit number rule such as 1, 2, 3... is defined, just use it. // Otherwise, check it against pluralization rules in $locale service. count = $locale.pluralCat(count - offset); } // If both `count` and `lastCount` are NaN, we don't need to re-register a watch. // In JS `NaN !== NaN`, so we have to explicitly check. if ((count !== lastCount) && !(countIsNaN && isNumber(lastCount) && isNaN(lastCount))) { watchRemover(); var whenExpFn = whensExpFns[count]; if (isUndefined(whenExpFn)) { if (newVal != null) { $log.debug("ngPluralize: no rule defined for '" + count + "' in " + whenExp); } watchRemover = noop; updateElementText(); } else { watchRemover = scope.$watch(whenExpFn, updateElementText); } lastCount = count; } }); function updateElementText(newText) { element.text(newText || ''); } } }; }]; /** * @ngdoc directive * @name ngRepeat * @multiElement * * @description * The `ngRepeat` directive instantiates a template once per item from a collection. Each template * instance gets its own scope, where the given loop variable is set to the current collection item, * and `$index` is set to the item index or key. * * Special properties are exposed on the local scope of each template instance, including: * * | Variable | Type | Details | * |-----------|-----------------|-----------------------------------------------------------------------------| * | `$index` | {@type number} | iterator offset of the repeated element (0..length-1) | * | `$first` | {@type boolean} | true if the repeated element is first in the iterator. | * | `$middle` | {@type boolean} | true if the repeated element is between the first and last in the iterator. | * | `$last` | {@type boolean} | true if the repeated element is last in the iterator. | * | `$even` | {@type boolean} | true if the iterator position `$index` is even (otherwise false). | * | `$odd` | {@type boolean} | true if the iterator position `$index` is odd (otherwise false). | * *
* Creating aliases for these properties is possible with {@link ng.directive:ngInit `ngInit`}. * This may be useful when, for instance, nesting ngRepeats. *
* * * # Iterating over object properties * * It is possible to get `ngRepeat` to iterate over the properties of an object using the following * syntax: * * ```js *
...
* ``` * * However, there are a limitations compared to array iteration: * * - The JavaScript specification does not define the order of keys * returned for an object, so Angular relies on the order returned by the browser * when running `for key in myObj`. Browsers generally follow the strategy of providing * keys in the order in which they were defined, although there are exceptions when keys are deleted * and reinstated. See the * [MDN page on `delete` for more info](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/delete#Cross-browser_notes). * * - `ngRepeat` will silently *ignore* object keys starting with `$`, because * it's a prefix used by Angular for public (`$`) and private (`$$`) properties. * * - The built-in filters {@link ng.orderBy orderBy} and {@link ng.filter filter} do not work with * objects, and will throw an error if used with one. * * If you are hitting any of these limitations, the recommended workaround is to convert your object into an array * that is sorted into the order that you prefer before providing it to `ngRepeat`. You could * do this with a filter such as [toArrayFilter](http://ngmodules.org/modules/angular-toArrayFilter) * or implement a `$watch` on the object yourself. * * * # Tracking and Duplicates * * `ngRepeat` uses {@link $rootScope.Scope#$watchCollection $watchCollection} to detect changes in * the collection. When a change happens, ngRepeat then makes the corresponding changes to the DOM: * * * When an item is added, a new instance of the template is added to the DOM. * * When an item is removed, its template instance is removed from the DOM. * * When items are reordered, their respective templates are reordered in the DOM. * * To minimize creation of DOM elements, `ngRepeat` uses a function * to "keep track" of all items in the collection and their corresponding DOM elements. * For example, if an item is added to the collection, ngRepeat will know that all other items * already have DOM elements, and will not re-render them. * * The default tracking function (which tracks items by their identity) does not allow * duplicate items in arrays. This is because when there are duplicates, it is not possible * to maintain a one-to-one mapping between collection items and DOM elements. * * If you do need to repeat duplicate items, you can substitute the default tracking behavior * with your own using the `track by` expression. * * For example, you may track items by the index of each item in the collection, using the * special scope property `$index`: * ```html *
* {{n}} *
* ``` * * You may also use arbitrary expressions in `track by`, including references to custom functions * on the scope: * ```html *
* {{n}} *
* ``` * *
* If you are working with objects that have an identifier property, you should track * by the identifier instead of the whole object. Should you reload your data later, `ngRepeat` * will not have to rebuild the DOM elements for items it has already rendered, even if the * JavaScript objects in the collection have been substituted for new ones. For large collections, * this significantly improves rendering performance. If you don't have a unique identifier, * `track by $index` can also provide a performance boost. *
* ```html *
* {{model.name}} *
* ``` * * When no `track by` expression is provided, it is equivalent to tracking by the built-in * `$id` function, which tracks items by their identity: * ```html *
* {{obj.prop}} *
* ``` * *
* **Note:** `track by` must always be the last expression: *
* ``` *
* {{model.name}} *
* ``` * * # Special repeat start and end points * To repeat a series of elements instead of just one parent element, ngRepeat (as well as other ng directives) supports extending * the range of the repeater by defining explicit start and end points by using **ng-repeat-start** and **ng-repeat-end** respectively. * The **ng-repeat-start** directive works the same as **ng-repeat**, but will repeat all the HTML code (including the tag it's defined on) * up to and including the ending HTML tag where **ng-repeat-end** is placed. * * The example below makes use of this feature: * ```html *
* Header {{ item }} *
*
* Body {{ item }} *
*
* Footer {{ item }} *
* ``` * * And with an input of {@type ['A','B']} for the items variable in the example above, the output will evaluate to: * ```html *
* Header A *
*
* Body A *
*
* Footer A *
*
* Header B *
*
* Body B *
*
* Footer B *
* ``` * * The custom start and end points for ngRepeat also support all other HTML directive syntax flavors provided in AngularJS (such * as **data-ng-repeat-start**, **x-ng-repeat-start** and **ng:repeat-start**). * * @animations * | Animation | Occurs | * |----------------------------------|-------------------------------------| * | {@link ng.$animate#enter enter} | when a new item is added to the list or when an item is revealed after a filter | * | {@link ng.$animate#leave leave} | when an item is removed from the list or when an item is filtered out | * | {@link ng.$animate#move move } | when an adjacent item is filtered out causing a reorder or when the item contents are reordered | * * See the example below for defining CSS animations with ngRepeat. * * @element ANY * @scope * @priority 1000 * @param {repeat_expression} ngRepeat The expression indicating how to enumerate a collection. These * formats are currently supported: * * * `variable in expression` – where variable is the user defined loop variable and `expression` * is a scope expression giving the collection to enumerate. * * For example: `album in artist.albums`. * * * `(key, value) in expression` – where `key` and `value` can be any user defined identifiers, * and `expression` is the scope expression giving the collection to enumerate. * * For example: `(name, age) in {'adam':10, 'amalie':12}`. * * * `variable in expression track by tracking_expression` – You can also provide an optional tracking expression * which can be used to associate the objects in the collection with the DOM elements. If no tracking expression * is specified, ng-repeat associates elements by identity. It is an error to have * more than one tracking expression value resolve to the same key. (This would mean that two distinct objects are * mapped to the same DOM element, which is not possible.) * * Note that the tracking expression must come last, after any filters, and the alias expression. * * For example: `item in items` is equivalent to `item in items track by $id(item)`. This implies that the DOM elements * will be associated by item identity in the array. * * For example: `item in items track by $id(item)`. A built in `$id()` function can be used to assign a unique * `$$hashKey` property to each item in the array. This property is then used as a key to associated DOM elements * with the corresponding item in the array by identity. Moving the same object in array would move the DOM * element in the same way in the DOM. * * For example: `item in items track by item.id` is a typical pattern when the items come from the database. In this * case the object identity does not matter. Two objects are considered equivalent as long as their `id` * property is same. * * For example: `item in items | filter:searchText track by item.id` is a pattern that might be used to apply a filter * to items in conjunction with a tracking expression. * * * `variable in expression as alias_expression` – You can also provide an optional alias expression which will then store the * intermediate results of the repeater after the filters have been applied. Typically this is used to render a special message * when a filter is active on the repeater, but the filtered result set is empty. * * For example: `item in items | filter:x as results` will store the fragment of the repeated items as `results`, but only after * the items have been processed through the filter. * * Please note that `as [variable name] is not an operator but rather a part of ngRepeat micro-syntax so it can be used only at the end * (and not as operator, inside an expression). * * For example: `item in items | filter : x | orderBy : order | limitTo : limit as results` . * * @example * This example uses `ngRepeat` to display a list of people. A filter is used to restrict the displayed * results by name. New (entering) and removed (leaving) items are animated.
I have {{friends.length}} friends. They are:
  • [{{$index + 1}}] {{friend.name}} who is {{friend.age}} years old.
  • No results found...
angular.module('ngRepeat', ['ngAnimate']).controller('repeatController', function($scope) { $scope.friends = [ {name:'John', age:25, gender:'boy'}, {name:'Jessie', age:30, gender:'girl'}, {name:'Johanna', age:28, gender:'girl'}, {name:'Joy', age:15, gender:'girl'}, {name:'Mary', age:28, gender:'girl'}, {name:'Peter', age:95, gender:'boy'}, {name:'Sebastian', age:50, gender:'boy'}, {name:'Erika', age:27, gender:'girl'}, {name:'Patrick', age:40, gender:'boy'}, {name:'Samantha', age:60, gender:'girl'} ]; }); .example-animate-container { background:white; border:1px solid black; list-style:none; margin:0; padding:0 10px; } .animate-repeat { line-height:30px; list-style:none; box-sizing:border-box; } .animate-repeat.ng-move, .animate-repeat.ng-enter, .animate-repeat.ng-leave { transition:all linear 0.5s; } .animate-repeat.ng-leave.ng-leave-active, .animate-repeat.ng-move, .animate-repeat.ng-enter { opacity:0; max-height:0; } .animate-repeat.ng-leave, .animate-repeat.ng-move.ng-move-active, .animate-repeat.ng-enter.ng-enter-active { opacity:1; max-height:30px; } var friends = element.all(by.repeater('friend in friends')); it('should render initial data set', function() { expect(friends.count()).toBe(10); expect(friends.get(0).getText()).toEqual('[1] John who is 25 years old.'); expect(friends.get(1).getText()).toEqual('[2] Jessie who is 30 years old.'); expect(friends.last().getText()).toEqual('[10] Samantha who is 60 years old.'); expect(element(by.binding('friends.length')).getText()) .toMatch("I have 10 friends. They are:"); }); it('should update repeater when filter predicate changes', function() { expect(friends.count()).toBe(10); element(by.model('q')).sendKeys('ma'); expect(friends.count()).toBe(2); expect(friends.get(0).getText()).toEqual('[1] Mary who is 28 years old.'); expect(friends.last().getText()).toEqual('[2] Samantha who is 60 years old.'); }); */ var ngRepeatDirective = ['$parse', '$animate', '$compile', function($parse, $animate, $compile) { var NG_REMOVED = '$$NG_REMOVED'; var ngRepeatMinErr = minErr('ngRepeat'); var updateScope = function(scope, index, valueIdentifier, value, keyIdentifier, key, arrayLength) { // TODO(perf): generate setters to shave off ~40ms or 1-1.5% scope[valueIdentifier] = value; if (keyIdentifier) scope[keyIdentifier] = key; scope.$index = index; scope.$first = (index === 0); scope.$last = (index === (arrayLength - 1)); scope.$middle = !(scope.$first || scope.$last); // jshint bitwise: false scope.$odd = !(scope.$even = (index&1) === 0); // jshint bitwise: true }; var getBlockStart = function(block) { return block.clone[0]; }; var getBlockEnd = function(block) { return block.clone[block.clone.length - 1]; }; return { restrict: 'A', multiElement: true, transclude: 'element', priority: 1000, terminal: true, $$tlb: true, compile: function ngRepeatCompile($element, $attr) { var expression = $attr.ngRepeat; var ngRepeatEndComment = $compile.$$createComment('end ngRepeat', expression); var match = expression.match(/^\s*([\s\S]+?)\s+in\s+([\s\S]+?)(?:\s+as\s+([\s\S]+?))?(?:\s+track\s+by\s+([\s\S]+?))?\s*$/); if (!match) { throw ngRepeatMinErr('iexp', "Expected expression in form of '_item_ in _collection_[ track by _id_]' but got '{0}'.", expression); } var lhs = match[1]; var rhs = match[2]; var aliasAs = match[3]; var trackByExp = match[4]; match = lhs.match(/^(?:(\s*[\$\w]+)|\(\s*([\$\w]+)\s*,\s*([\$\w]+)\s*\))$/); if (!match) { throw ngRepeatMinErr('iidexp', "'_item_' in '_item_ in _collection_' should be an identifier or '(_key_, _value_)' expression, but got '{0}'.", lhs); } var valueIdentifier = match[3] || match[1]; var keyIdentifier = match[2]; if (aliasAs && (!/^[$a-zA-Z_][$a-zA-Z0-9_]*$/.test(aliasAs) || /^(null|undefined|this|\$index|\$first|\$middle|\$last|\$even|\$odd|\$parent|\$root|\$id)$/.test(aliasAs))) { throw ngRepeatMinErr('badident', "alias '{0}' is invalid --- must be a valid JS identifier which is not a reserved name.", aliasAs); } var trackByExpGetter, trackByIdExpFn, trackByIdArrayFn, trackByIdObjFn; var hashFnLocals = {$id: hashKey}; if (trackByExp) { trackByExpGetter = $parse(trackByExp); } else { trackByIdArrayFn = function(key, value) { return hashKey(value); }; trackByIdObjFn = function(key) { return key; }; } return function ngRepeatLink($scope, $element, $attr, ctrl, $transclude) { if (trackByExpGetter) { trackByIdExpFn = function(key, value, index) { // assign key, value, and $index to the locals so that they can be used in hash functions if (keyIdentifier) hashFnLocals[keyIdentifier] = key; hashFnLocals[valueIdentifier] = value; hashFnLocals.$index = index; return trackByExpGetter($scope, hashFnLocals); }; } // Store a list of elements from previous run. This is a hash where key is the item from the // iterator, and the value is objects with following properties. // - scope: bound scope // - element: previous element. // - index: position // // We are using no-proto object so that we don't need to guard against inherited props via // hasOwnProperty. var lastBlockMap = createMap(); //watch props $scope.$watchCollection(rhs, function ngRepeatAction(collection) { var index, length, previousNode = $element[0], // node that cloned nodes should be inserted after // initialized to the comment node anchor nextNode, // Same as lastBlockMap but it has the current state. It will become the // lastBlockMap on the next iteration. nextBlockMap = createMap(), collectionLength, key, value, // key/value of iteration trackById, trackByIdFn, collectionKeys, block, // last object information {scope, element, id} nextBlockOrder, elementsToRemove; if (aliasAs) { $scope[aliasAs] = collection; } if (isArrayLike(collection)) { collectionKeys = collection; trackByIdFn = trackByIdExpFn || trackByIdArrayFn; } else { trackByIdFn = trackByIdExpFn || trackByIdObjFn; // if object, extract keys, in enumeration order, unsorted collectionKeys = []; for (var itemKey in collection) { if (hasOwnProperty.call(collection, itemKey) && itemKey.charAt(0) !== '$') { collectionKeys.push(itemKey); } } } collectionLength = collectionKeys.length; nextBlockOrder = new Array(collectionLength); // locate existing items for (index = 0; index < collectionLength; index++) { key = (collection === collectionKeys) ? index : collectionKeys[index]; value = collection[key]; trackById = trackByIdFn(key, value, index); if (lastBlockMap[trackById]) { // found previously seen block block = lastBlockMap[trackById]; delete lastBlockMap[trackById]; nextBlockMap[trackById] = block; nextBlockOrder[index] = block; } else if (nextBlockMap[trackById]) { // if collision detected. restore lastBlockMap and throw an error forEach(nextBlockOrder, function(block) { if (block && block.scope) lastBlockMap[block.id] = block; }); throw ngRepeatMinErr('dupes', "Duplicates in a repeater are not allowed. Use 'track by' expression to specify unique keys. Repeater: {0}, Duplicate key: {1}, Duplicate value: {2}", expression, trackById, value); } else { // new never before seen block nextBlockOrder[index] = {id: trackById, scope: undefined, clone: undefined}; nextBlockMap[trackById] = true; } } // remove leftover items for (var blockKey in lastBlockMap) { block = lastBlockMap[blockKey]; elementsToRemove = getBlockNodes(block.clone); $animate.leave(elementsToRemove); if (elementsToRemove[0].parentNode) { // if the element was not removed yet because of pending animation, mark it as deleted // so that we can ignore it later for (index = 0, length = elementsToRemove.length; index < length; index++) { elementsToRemove[index][NG_REMOVED] = true; } } block.scope.$destroy(); } // we are not using forEach for perf reasons (trying to avoid #call) for (index = 0; index < collectionLength; index++) { key = (collection === collectionKeys) ? index : collectionKeys[index]; value = collection[key]; block = nextBlockOrder[index]; if (block.scope) { // if we have already seen this object, then we need to reuse the // associated scope/element nextNode = previousNode; // skip nodes that are already pending removal via leave animation do { nextNode = nextNode.nextSibling; } while (nextNode && nextNode[NG_REMOVED]); if (getBlockStart(block) != nextNode) { // existing item which got moved $animate.move(getBlockNodes(block.clone), null, previousNode); } previousNode = getBlockEnd(block); updateScope(block.scope, index, valueIdentifier, value, keyIdentifier, key, collectionLength); } else { // new item which we don't know about $transclude(function ngRepeatTransclude(clone, scope) { block.scope = scope; // http://jsperf.com/clone-vs-createcomment var endNode = ngRepeatEndComment.cloneNode(false); clone[clone.length++] = endNode; $animate.enter(clone, null, previousNode); previousNode = endNode; // Note: We only need the first/last node of the cloned nodes. // However, we need to keep the reference to the jqlite wrapper as it might be changed later // by a directive with templateUrl when its template arrives. block.clone = clone; nextBlockMap[block.id] = block; updateScope(block.scope, index, valueIdentifier, value, keyIdentifier, key, collectionLength); }); } } lastBlockMap = nextBlockMap; }); }; } }; }]; var NG_HIDE_CLASS = 'ng-hide'; var NG_HIDE_IN_PROGRESS_CLASS = 'ng-hide-animate'; /** * @ngdoc directive * @name ngShow * @multiElement * * @description * The `ngShow` directive shows or hides the given HTML element based on the expression * provided to the `ngShow` attribute. The element is shown or hidden by removing or adding * the `.ng-hide` CSS class onto the element. The `.ng-hide` CSS class is predefined * in AngularJS and sets the display style to none (using an !important flag). * For CSP mode please add `angular-csp.css` to your html file (see {@link ng.directive:ngCsp ngCsp}). * * ```html * *
* * *
* ``` * * When the `ngShow` expression evaluates to a falsy value then the `.ng-hide` CSS class is added to the class * attribute on the element causing it to become hidden. When truthy, the `.ng-hide` CSS class is removed * from the element causing the element not to appear hidden. * * ## Why is !important used? * * You may be wondering why !important is used for the `.ng-hide` CSS class. This is because the `.ng-hide` selector * can be easily overridden by heavier selectors. For example, something as simple * as changing the display style on a HTML list item would make hidden elements appear visible. * This also becomes a bigger issue when dealing with CSS frameworks. * * By using !important, the show and hide behavior will work as expected despite any clash between CSS selector * specificity (when !important isn't used with any conflicting styles). If a developer chooses to override the * styling to change how to hide an element then it is just a matter of using !important in their own CSS code. * * ### Overriding `.ng-hide` * * By default, the `.ng-hide` class will style the element with `display: none!important`. If you wish to change * the hide behavior with ngShow/ngHide then this can be achieved by restating the styles for the `.ng-hide` * class CSS. Note that the selector that needs to be used is actually `.ng-hide:not(.ng-hide-animate)` to cope * with extra animation classes that can be added. * * ```css * .ng-hide:not(.ng-hide-animate) { * /* this is just another form of hiding an element */ * display: block!important; * position: absolute; * top: -9999px; * left: -9999px; * } * ``` * * By default you don't need to override in CSS anything and the animations will work around the display style. * * ## A note about animations with `ngShow` * * Animations in ngShow/ngHide work with the show and hide events that are triggered when the directive expression * is true and false. This system works like the animation system present with ngClass except that * you must also include the !important flag to override the display property * so that you can perform an animation when the element is hidden during the time of the animation. * * ```css * // * //a working example can be found at the bottom of this page * // * .my-element.ng-hide-add, .my-element.ng-hide-remove { * /* this is required as of 1.3x to properly * apply all styling in a show/hide animation */ * transition: 0s linear all; * } * * .my-element.ng-hide-add-active, * .my-element.ng-hide-remove-active { * /* the transition is defined in the active class */ * transition: 1s linear all; * } * * .my-element.ng-hide-add { ... } * .my-element.ng-hide-add.ng-hide-add-active { ... } * .my-element.ng-hide-remove { ... } * .my-element.ng-hide-remove.ng-hide-remove-active { ... } * ``` * * Keep in mind that, as of AngularJS version 1.3, there is no need to change the display * property to block during animation states--ngAnimate will handle the style toggling automatically for you. * * @animations * | Animation | Occurs | * |----------------------------------|-------------------------------------| * | {@link $animate#addClass addClass} `.ng-hide` | after the `ngShow` expression evaluates to a non truthy value and just before the contents are set to hidden | * | {@link $animate#removeClass removeClass} `.ng-hide` | after the `ngShow` expression evaluates to a truthy value and just before contents are set to visible | * * @element ANY * @param {expression} ngShow If the {@link guide/expression expression} is truthy * then the element is shown or hidden respectively. * * @example Click me:
Show:
I show up when your checkbox is checked.
Hide:
I hide when your checkbox is checked.
@import url(../../components/bootstrap-3.1.1/css/bootstrap.css); .animate-show { line-height: 20px; opacity: 1; padding: 10px; border: 1px solid black; background: white; } .animate-show.ng-hide-add, .animate-show.ng-hide-remove { transition: all linear 0.5s; } .animate-show.ng-hide { line-height: 0; opacity: 0; padding: 0 10px; } .check-element { padding: 10px; border: 1px solid black; background: white; } var thumbsUp = element(by.css('span.glyphicon-thumbs-up')); var thumbsDown = element(by.css('span.glyphicon-thumbs-down')); it('should check ng-show / ng-hide', function() { expect(thumbsUp.isDisplayed()).toBeFalsy(); expect(thumbsDown.isDisplayed()).toBeTruthy(); element(by.model('checked')).click(); expect(thumbsUp.isDisplayed()).toBeTruthy(); expect(thumbsDown.isDisplayed()).toBeFalsy(); }); */ var ngShowDirective = ['$animate', function($animate) { return { restrict: 'A', multiElement: true, link: function(scope, element, attr) { scope.$watch(attr.ngShow, function ngShowWatchAction(value) { // we're adding a temporary, animation-specific class for ng-hide since this way // we can control when the element is actually displayed on screen without having // to have a global/greedy CSS selector that breaks when other animations are run. // Read: https://github.com/angular/angular.js/issues/9103#issuecomment-58335845 $animate[value ? 'removeClass' : 'addClass'](element, NG_HIDE_CLASS, { tempClasses: NG_HIDE_IN_PROGRESS_CLASS }); }); } }; }]; /** * @ngdoc directive * @name ngHide * @multiElement * * @description * The `ngHide` directive shows or hides the given HTML element based on the expression * provided to the `ngHide` attribute. The element is shown or hidden by removing or adding * the `ng-hide` CSS class onto the element. The `.ng-hide` CSS class is predefined * in AngularJS and sets the display style to none (using an !important flag). * For CSP mode please add `angular-csp.css` to your html file (see {@link ng.directive:ngCsp ngCsp}). * * ```html * *
* * *
* ``` * * When the `ngHide` expression evaluates to a truthy value then the `.ng-hide` CSS class is added to the class * attribute on the element causing it to become hidden. When falsy, the `.ng-hide` CSS class is removed * from the element causing the element not to appear hidden. * * ## Why is !important used? * * You may be wondering why !important is used for the `.ng-hide` CSS class. This is because the `.ng-hide` selector * can be easily overridden by heavier selectors. For example, something as simple * as changing the display style on a HTML list item would make hidden elements appear visible. * This also becomes a bigger issue when dealing with CSS frameworks. * * By using !important, the show and hide behavior will work as expected despite any clash between CSS selector * specificity (when !important isn't used with any conflicting styles). If a developer chooses to override the * styling to change how to hide an element then it is just a matter of using !important in their own CSS code. * * ### Overriding `.ng-hide` * * By default, the `.ng-hide` class will style the element with `display: none!important`. If you wish to change * the hide behavior with ngShow/ngHide then this can be achieved by restating the styles for the `.ng-hide` * class in CSS: * * ```css * .ng-hide { * /* this is just another form of hiding an element */ * display: block!important; * position: absolute; * top: -9999px; * left: -9999px; * } * ``` * * By default you don't need to override in CSS anything and the animations will work around the display style. * * ## A note about animations with `ngHide` * * Animations in ngShow/ngHide work with the show and hide events that are triggered when the directive expression * is true and false. This system works like the animation system present with ngClass, except that the `.ng-hide` * CSS class is added and removed for you instead of your own CSS class. * * ```css * // * //a working example can be found at the bottom of this page * // * .my-element.ng-hide-add, .my-element.ng-hide-remove { * transition: 0.5s linear all; * } * * .my-element.ng-hide-add { ... } * .my-element.ng-hide-add.ng-hide-add-active { ... } * .my-element.ng-hide-remove { ... } * .my-element.ng-hide-remove.ng-hide-remove-active { ... } * ``` * * Keep in mind that, as of AngularJS version 1.3, there is no need to change the display * property to block during animation states--ngAnimate will handle the style toggling automatically for you. * * @animations * | Animation | Occurs | * |----------------------------------|-------------------------------------| * | {@link $animate#addClass addClass} `.ng-hide` | after the `ngHide` expression evaluates to a truthy value and just before the contents are set to hidden | * | {@link $animate#removeClass removeClass} `.ng-hide` | after the `ngHide` expression evaluates to a non truthy value and just before contents are set to visible | * * * @element ANY * @param {expression} ngHide If the {@link guide/expression expression} is truthy then * the element is shown or hidden respectively. * * @example Click me:
Show:
I show up when your checkbox is checked.
Hide:
I hide when your checkbox is checked.
@import url(../../components/bootstrap-3.1.1/css/bootstrap.css); .animate-hide { transition: all linear 0.5s; line-height: 20px; opacity: 1; padding: 10px; border: 1px solid black; background: white; } .animate-hide.ng-hide { line-height: 0; opacity: 0; padding: 0 10px; } .check-element { padding: 10px; border: 1px solid black; background: white; } var thumbsUp = element(by.css('span.glyphicon-thumbs-up')); var thumbsDown = element(by.css('span.glyphicon-thumbs-down')); it('should check ng-show / ng-hide', function() { expect(thumbsUp.isDisplayed()).toBeFalsy(); expect(thumbsDown.isDisplayed()).toBeTruthy(); element(by.model('checked')).click(); expect(thumbsUp.isDisplayed()).toBeTruthy(); expect(thumbsDown.isDisplayed()).toBeFalsy(); }); */ var ngHideDirective = ['$animate', function($animate) { return { restrict: 'A', multiElement: true, link: function(scope, element, attr) { scope.$watch(attr.ngHide, function ngHideWatchAction(value) { // The comment inside of the ngShowDirective explains why we add and // remove a temporary class for the show/hide animation $animate[value ? 'addClass' : 'removeClass'](element,NG_HIDE_CLASS, { tempClasses: NG_HIDE_IN_PROGRESS_CLASS }); }); } }; }]; /** * @ngdoc directive * @name ngStyle * @restrict AC * * @description * The `ngStyle` directive allows you to set CSS style on an HTML element conditionally. * * @knownIssue * You should not use {@link guide/interpolation interpolation} in the value of the `style` * attribute, when using the `ngStyle` directive on the same element. * See {@link guide/interpolation#known-issues here} for more info. * * @element ANY * @param {expression} ngStyle * * {@link guide/expression Expression} which evals to an * object whose keys are CSS style names and values are corresponding values for those CSS * keys. * * Since some CSS style names are not valid keys for an object, they must be quoted. * See the 'background-color' style in the example below. * * @example
Sample Text 
myStyle={{myStyle}}
 span { color: black; } var colorSpan = element(by.css('span')); it('should check ng-style', function() { expect(colorSpan.getCssValue('color')).toBe('rgba(0, 0, 0, 1)'); element(by.css('input[value=\'set color\']')).click(); expect(colorSpan.getCssValue('color')).toBe('rgba(255, 0, 0, 1)'); element(by.css('input[value=clear]')).click(); expect(colorSpan.getCssValue('color')).toBe('rgba(0, 0, 0, 1)'); }); */ var ngStyleDirective = ngDirective(function(scope, element, attr) { scope.$watch(attr.ngStyle, function ngStyleWatchAction(newStyles, oldStyles) { if (oldStyles && (newStyles !== oldStyles)) { forEach(oldStyles, function(val, style) { element.css(style, '');}); } if (newStyles) element.css(newStyles); }, true); }); /** * @ngdoc directive * @name ngSwitch * @restrict EA * * @description * The `ngSwitch` directive is used to conditionally swap DOM structure on your template based on a scope expression. * Elements within `ngSwitch` but without `ngSwitchWhen` or `ngSwitchDefault` directives will be preserved at the location * as specified in the template. * * The directive itself works similar to ngInclude, however, instead of downloading template code (or loading it * from the template cache), `ngSwitch` simply chooses one of the nested elements and makes it visible based on which element * matches the value obtained from the evaluated expression. In other words, you define a container element * (where you place the directive), place an expression on the **`on="..."` attribute** * (or the **`ng-switch="..."` attribute**), define any inner elements inside of the directive and place * a when attribute per element. The when attribute is used to inform ngSwitch which element to display when the on * expression is evaluated. If a matching expression is not found via a when attribute then an element with the default * attribute is displayed. * *
* Be aware that the attribute values to match against cannot be expressions. They are interpreted * as literal string values to match against. * For example, **`ng-switch-when="someVal"`** will match against the string `"someVal"` not against the * value of the expression `$scope.someVal`. *
* @animations * | Animation | Occurs | * |----------------------------------|-------------------------------------| * | {@link ng.$animate#enter enter} | after the ngSwitch contents change and the matched child element is placed inside the container | * | {@link ng.$animate#leave leave} | after the ngSwitch contents change and just before the former contents are removed from the DOM | * * @usage * * ``` * * ... * ... * ... * * ``` * * * @scope * @priority 1200 * @param {*} ngSwitch|on expression to match against ng-switch-when. * On child elements add: * * * `ngSwitchWhen`: the case statement to match against. If match then this * case will be displayed. If the same match appears multiple times, all the * elements will be displayed. * * `ngSwitchDefault`: the default case when no other case match. If there * are multiple default cases, all of them will be displayed when no other * case match. * * * @example
selection={{selection}}
Settings Div
Home Span
default
 angular.module('switchExample', ['ngAnimate']) .controller('ExampleController', ['$scope', function($scope) { $scope.items = ['settings', 'home', 'other']; $scope.selection = $scope.items[0]; }]); .animate-switch-container { position:relative; background:white; border:1px solid black; height:40px; overflow:hidden; } .animate-switch { padding:10px; } .animate-switch.ng-animate { transition:all cubic-bezier(0.250, 0.460, 0.450, 0.940) 0.5s; position:absolute; top:0; left:0; right:0; bottom:0; } .animate-switch.ng-leave.ng-leave-active, .animate-switch.ng-enter { top:-50px; } .animate-switch.ng-leave, .animate-switch.ng-enter.ng-enter-active { top:0; } var switchElem = element(by.css('[ng-switch]')); var select = element(by.model('selection')); it('should start in settings', function() { expect(switchElem.getText()).toMatch(/Settings Div/); }); it('should change to home', function() { select.all(by.css('option')).get(1).click(); expect(switchElem.getText()).toMatch(/Home Span/); }); it('should select default', function() { select.all(by.css('option')).get(2).click(); expect(switchElem.getText()).toMatch(/default/); }); */ var ngSwitchDirective = ['$animate', '$compile', function($animate, $compile) { return { require: 'ngSwitch', // asks for $scope to fool the BC controller module controller: ['$scope', function ngSwitchController() { this.cases = {}; }], link: function(scope, element, attr, ngSwitchController) { var watchExpr = attr.ngSwitch || attr.on, selectedTranscludes = [], selectedElements = [], previousLeaveAnimations = [], selectedScopes = []; var spliceFactory = function(array, index) { return function() { array.splice(index, 1); }; }; scope.$watch(watchExpr, function ngSwitchWatchAction(value) { var i, ii; for (i = 0, ii = previousLeaveAnimations.length; i < ii; ++i) { $animate.cancel(previousLeaveAnimations[i]); } previousLeaveAnimations.length = 0; for (i = 0, ii = selectedScopes.length; i < ii; ++i) { var selected = getBlockNodes(selectedElements[i].clone); selectedScopes[i].$destroy(); var promise = previousLeaveAnimations[i] = $animate.leave(selected); promise.then(spliceFactory(previousLeaveAnimations, i)); } selectedElements.length = 0; selectedScopes.length = 0; if ((selectedTranscludes = ngSwitchController.cases['!' + value] || ngSwitchController.cases['?'])) { forEach(selectedTranscludes, function(selectedTransclude) { selectedTransclude.transclude(function(caseElement, selectedScope) { selectedScopes.push(selectedScope); var anchor = selectedTransclude.element; caseElement[caseElement.length++] = $compile.$$createComment('end ngSwitchWhen'); var block = { clone: caseElement }; selectedElements.push(block); $animate.enter(caseElement, anchor.parent(), anchor); }); }); } }); } }; }]; var ngSwitchWhenDirective = ngDirective({ transclude: 'element', priority: 1200, require: '^ngSwitch', multiElement: true, link: function(scope, element, attrs, ctrl, $transclude) { ctrl.cases['!' + attrs.ngSwitchWhen] = (ctrl.cases['!' + attrs.ngSwitchWhen] || []); ctrl.cases['!' + attrs.ngSwitchWhen].push({ transclude: $transclude, element: element }); } }); var ngSwitchDefaultDirective = ngDirective({ transclude: 'element', priority: 1200, require: '^ngSwitch', multiElement: true, link: function(scope, element, attr, ctrl, $transclude) { ctrl.cases['?'] = (ctrl.cases['?'] || []); ctrl.cases['?'].push({ transclude: $transclude, element: element }); } }); /** * @ngdoc directive * @name ngTransclude * @restrict EAC * * @description * Directive that marks the insertion point for the transcluded DOM of the nearest parent directive that uses transclusion. * * You can specify that you want to insert a named transclusion slot, instead of the default slot, by providing the slot name * as the value of the `ng-transclude` or `ng-transclude-slot` attribute. * * If the transcluded content is not empty (i.e. contains one or more DOM nodes, including whitespace text nodes), any existing * content of this element will be removed before the transcluded content is inserted. * If the transcluded content is empty, the existing content is left intact. This lets you provide fallback content in the case * that no transcluded content is provided. * * @element ANY * * @param {string} ngTransclude|ngTranscludeSlot the name of the slot to insert at this point. If this is not provided, is empty * or its value is the same as the name of the attribute then the default slot is used. * * @example * ### Basic transclusion * This example demonstrates basic transclusion of content into a component directive. * * * *
*
*
* {{text}} *
* * * it('should have transcluded', function() { * var titleElement = element(by.model('title')); * titleElement.clear(); * titleElement.sendKeys('TITLE'); * var textElement = element(by.model('text')); * textElement.clear(); * textElement.sendKeys('TEXT'); * expect(element(by.binding('title')).getText()).toEqual('TITLE'); * expect(element(by.binding('text')).getText()).toEqual('TEXT'); * }); * * * * @example * ### Transclude fallback content * This example shows how to use `NgTransclude` with fallback content, that * is displayed if no transcluded content is provided. * * * * * * * * * Button2 * * * * it('should have different transclude element content', function() { * expect(element(by.id('fallback')).getText()).toBe('Button1'); * expect(element(by.id('modified')).getText()).toBe('Button2'); * }); * * * * @example * ### Multi-slot transclusion * This example demonstrates using multi-slot transclusion in a component directive. * * * *
*
*
* * {{title}} *

{{text}}

 * *
* * * angular.module('multiSlotTranscludeExample', []) * .directive('pane', function(){ * return { * restrict: 'E', * transclude: { * 'title': '?paneTitle', * 'body': 'paneBody', * 'footer': '?paneFooter' * }, * template: '
' + * '
Fallback Title
' + * '
' + * '
Fallback Footer
' + * '
' * }; * }) * .controller('ExampleController', ['$scope', function($scope) { * $scope.title = 'Lorem Ipsum'; * $scope.link = "https://google.com"; * $scope.text = 'Neque porro quisquam est qui dolorem ipsum quia dolor...'; * }]); * * * it('should have transcluded the title and the body', function() { * var titleElement = element(by.model('title')); * titleElement.clear(); * titleElement.sendKeys('TITLE'); * var textElement = element(by.model('text')); * textElement.clear(); * textElement.sendKeys('TEXT'); * expect(element(by.css('.title')).getText()).toEqual('TITLE'); * expect(element(by.binding('text')).getText()).toEqual('TEXT'); * expect(element(by.css('.footer')).getText()).toEqual('Fallback Footer'); * }); * * */ var ngTranscludeMinErr = minErr('ngTransclude'); var ngTranscludeDirective = ['$compile', function($compile) { return { restrict: 'EAC', terminal: true, compile: function ngTranscludeCompile(tElement) { // Remove and cache any original content to act as a fallback var fallbackLinkFn = $compile(tElement.contents()); tElement.empty(); return function ngTranscludePostLink($scope, $element, $attrs, controller, $transclude) { if (!$transclude) { throw ngTranscludeMinErr('orphan', 'Illegal use of ngTransclude directive in the template! ' + 'No parent directive that requires a transclusion found. ' + 'Element: {0}', startingTag($element)); } // If the attribute is of the form: `ng-transclude="ng-transclude"` then treat it like the default if ($attrs.ngTransclude === $attrs.$attr.ngTransclude) { $attrs.ngTransclude = ''; } var slotName = $attrs.ngTransclude || $attrs.ngTranscludeSlot; // If the slot is required and no transclusion content is provided then this call will throw an error $transclude(ngTranscludeCloneAttachFn, null, slotName); // If the slot is optional and no transclusion content is provided then use the fallback content if (slotName && !$transclude.isSlotFilled(slotName)) { useFallbackContent(); } function ngTranscludeCloneAttachFn(clone, transcludedScope) { if (clone.length) { $element.append(clone); } else { useFallbackContent(); // There is nothing linked against the transcluded scope since no content was available, // so it should be safe to clean up the generated scope. transcludedScope.$destroy(); } } function useFallbackContent() { // Since this is the fallback content rather than the transcluded content, // we link against the scope of this directive rather than the transcluded scope fallbackLinkFn($scope, function(clone) { $element.append(clone); }); } }; } }; }]; /** * @ngdoc directive * @name script * @restrict E * * @description * Load the content of a ` Load inlined template
it('should load template defined inside script tag', function() { element(by.css('#tpl-link')).click(); expect(element(by.css('#tpl-content')).getText()).toMatch(/Content of the template/); }); */ var scriptDirective = ['$templateCache', function($templateCache) { return { restrict: 'E', terminal: true, compile: function(element, attr) { if (attr.type == 'text/ng-template') { var templateUrl = attr.id, text = element[0].text; $templateCache.put(templateUrl, text); } } }; }]; var noopNgModelController = { $setViewValue: noop, $render: noop }; function chromeHack(optionElement) { // Workaround for https://code.google.com/p/chromium/issues/detail?id=381459 // Adding an