'use strict'; function _interopDefault (ex) { return (ex && (typeof ex === 'object') && 'default' in ex) ? ex['default'] : ex; } var stream = _interopDefault(require('stream')); var babelHelpers = {}; babelHelpers.classCallCheck = function (instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }; babelHelpers.createClass = function () { function defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps); if (staticProps) defineProperties(Constructor, staticProps); return Constructor; }; }(); babelHelpers.inherits = function (subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } }); if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : subClass.__proto__ = superClass; }; babelHelpers.possibleConstructorReturn = function (self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); } return call && (typeof call === "object" || typeof call === "function") ? call : self; }; babelHelpers; function renderStartingTag(node, modules, directives) { var markup = '<' + node.tag; if (node.data) { // check directives var dirs = node.data.directives; if (dirs) { for (var i = 0; i < dirs.length; i++) { var dirRenderer = directives[dirs[i].name]; if (dirRenderer) { // directives mutate the node's data // which then gets rendered by modules dirRenderer(node, dirs[i]); } } } // apply other modules for (var _i = 0; _i < modules.length; _i++) { var res = modules[_i](node); if (res) { markup += res; } } } return markup + '>'; } function createSyncRenderer(modules, directives, isUnaryTag) { function renderComponent(component, isRoot) { component.$mount(); return renderNode(component._vnode, isRoot); } function renderNode(node, isRoot) { if (node.componentOptions) { node.data.hook.init(node); return renderComponent(node.child, isRoot); } else { return node.tag ? renderElement(node, isRoot) : node.text; } } function renderElement(el, isRoot) { if (isRoot) { if (!el.data) el.data = {}; if (!el.data.attrs) el.data.attrs = {}; el.data.attrs['server-rendered'] = true; } var startTag = renderStartingTag(el, modules, directives); var endTag = ''; if (isUnaryTag(el.tag)) { return startTag; } else if (!el.children || !el.children.length) { return startTag + endTag; } else { var children = ''; for (var i = 0; i < el.children.length; i++) { children += renderNode(el.children[i]); } return startTag + children + endTag; } } return function renderToString(component) { return renderComponent(component, true); }; } var MAX_STACK_DEPTH = 500; /** * Original RenderStream implmentation by Sasha Aickin (@aickin) * Licensed under the Apache License, Version 2.0 * Modified by Evan You (@yyx990803) */ var RenderStream = function (_stream$Readable) { babelHelpers.inherits(RenderStream, _stream$Readable); function RenderStream(render) { babelHelpers.classCallCheck(this, RenderStream); var _this = babelHelpers.possibleConstructorReturn(this, Object.getPrototypeOf(RenderStream).call(this)); _this.buffer = ''; _this.render = render; return _this; } babelHelpers.createClass(RenderStream, [{ key: '_read', value: function _read(n) { var _this2 = this; var bufferToPush; // it's possible that the last chunk added bumped the buffer up to > 2 * n, // which means we will need to go through multiple read calls to drain it // down to < n. if (this.done) { this.push(null); return; } if (this.buffer.length >= n) { bufferToPush = this.buffer.substring(0, n); this.buffer = this.buffer.substring(n); this.push(bufferToPush); return; } if (!this.next) { this.stackDepth = 0; // start the rendering chain. this.render( // write function (text, next) { _this2.buffer += text; if (_this2.buffer.length >= n) { _this2.next = next; bufferToPush = _this2.buffer.substring(0, n); _this2.buffer = _this2.buffer.substring(n); _this2.push(bufferToPush); } else { // continue rendering until we have enough text to call this.push(). // sometimes do this as process.nextTick to get out of stack overflows. if (_this2.stackDepth >= MAX_STACK_DEPTH) { process.nextTick(next); } else { _this2.stackDepth++; next(); _this2.stackDepth--; } } }, // done function () { // the rendering is finished; we should push out the last of the buffer. _this2.done = true; _this2.push(_this2.buffer); }); } else { // continue with the rendering. this.next(); } } }]); return RenderStream; }(stream.Readable); function createStreamingRenderer(modules, directives, isUnaryTag) { function renderComponent(component, write, next, isRoot) { component.$mount(); renderNode(component._vnode, write, next, isRoot); } function renderNode(node, write, next, isRoot) { if (node.componentOptions) { node.data.hook.init(node); renderComponent(node.child, write, next, isRoot); } else { if (node.tag) { renderElement(node, write, next, isRoot); } else { write(node.text, next); } } } function renderElement(el, write, next, isRoot) { if (isRoot) { if (!el.data) el.data = {}; if (!el.data.attrs) el.data.attrs = {}; el.data.attrs['server-rendered'] = true; } var startTag = renderStartingTag(el, modules, directives); var endTag = ''; if (isUnaryTag(el.tag)) { write(startTag, next); } else if (!el.children || !el.children.length) { write(startTag + endTag, next); } else { write(startTag, function () { var total = el.children.length; var rendered = 0; function renderChild(child) { renderNode(child, write, function () { rendered++; if (rendered < total) { renderChild(el.children[rendered]); } else { write(endTag, next); } }); } renderChild(el.children[0]); }); } } return function renderToStream(component) { return new RenderStream(function (write, done) { renderComponent(component, write, done, true); }); }; } function createRenderer() { var _ref = arguments.length <= 0 || arguments[0] === undefined ? {} : arguments[0]; var _ref$modules = _ref.modules; var modules = _ref$modules === undefined ? [] : _ref$modules; var _ref$directives = _ref.directives; var directives = _ref$directives === undefined ? {} : _ref$directives; var _ref$isUnaryTag = _ref.isUnaryTag; var isUnaryTag = _ref$isUnaryTag === undefined ? function () { return false; } : _ref$isUnaryTag; return { renderToString: createSyncRenderer(modules, directives, isUnaryTag), renderToStream: createStreamingRenderer(modules, directives, isUnaryTag) }; } /** * Convert a value to a string that is actually rendered. * * @param {*} val * @return {String} */ function renderString(val) { return val == null ? '' : typeof val === 'object' ? JSON.stringify(val, null, 2) : String(val); } /** * Make a map and return a function for checking if a key * is in that map. * * @param {String} str * @param {Boolean} expectsLowerCase * @return {Function} */ function makeMap(str, expectsLowerCase) { var map = Object.create(null); var list = str.split(','); for (var i = 0; i < list.length; i++) { map[list[i]] = true; } return expectsLowerCase ? function (val) { return map[val.toLowerCase()]; } : function (val) { return map[val]; }; } /** * Check if a tag is a built-in tag. */ var isBuiltInTag = makeMap('slot,component,render,transition', true); /** * Remove an item from an array * * @param {Array} arr * @param {*} item */ function remove(arr, item) { if (arr.length) { var index = arr.indexOf(item); if (index > -1) { return arr.splice(index, 1); } } } /** * Check whether the object has the property. * * @param {Object} obj * @param {String} key * @return {Boolean} */ var hasOwnProperty = Object.prototype.hasOwnProperty; function hasOwn(obj, key) { return hasOwnProperty.call(obj, key); } /** * Check if value is primitive * * @param {*} value * @return {Boolean} */ function isPrimitive(value) { return typeof value === 'string' || typeof value === 'number'; } /** * Create a cached version of a pure function. * * @param {Function} fn * @return {Function} */ function cached(fn) { var cache = Object.create(null); return function cachedFn(str) { var hit = cache[str]; return hit || (cache[str] = fn(str)); }; } /** * Camelize a hyphen-delmited string. * * @param {String} str * @return {String} */ var camelizeRE = /-(\w)/g; var camelize = cached(function (str) { return str.replace(camelizeRE, toUpper); }); function toUpper(_, c) { return c ? c.toUpperCase() : ''; } /** * Hyphenate a camelCase string. * * @param {String} str * @return {String} */ var hyphenateRE = /([a-z\d])([A-Z])/g; var hyphenate = cached(function (str) { return str.replace(hyphenateRE, '$1-$2').toLowerCase(); }); /** * Simple bind, faster than native * * @param {Function} fn * @param {Object} ctx * @return {Function} */ function bind(fn, ctx) { return function (a) { var l = arguments.length; return l ? l > 1 ? fn.apply(ctx, arguments) : fn.call(ctx, a) : fn.call(ctx); }; } /** * Convert an Array-like object to a real Array. * * @param {Array-like} list * @param {Number} [start] - start index * @return {Array} */ function toArray(list, start) { start = start || 0; var i = list.length - start; var ret = new Array(i); while (i--) { ret[i] = list[i + start]; } return ret; } /** * Mix properties into target object. * * @param {Object} to * @param {Object} from */ function extend(to, from) { for (var key in from) { to[key] = from[key]; } return to; } /** * Quick object check - this is primarily used to tell * Objects from primitive values when we know the value * is a JSON-compliant type. * * @param {*} obj * @return {Boolean} */ function isObject(obj) { return obj !== null && typeof obj === 'object'; } /** * Strict object type check. Only returns true * for plain JavaScript objects. * * @param {*} obj * @return {Boolean} */ var toString = Object.prototype.toString; var OBJECT_STRING = '[object Object]'; function isPlainObject(obj) { return toString.call(obj) === OBJECT_STRING; } /** * Array type check. * * @param {*} obj * @return {Boolean} */ var isArray = Array.isArray; /** * Check if a string starts with $ or _ * * @param {String} str * @return {Boolean} */ function isReserved(str) { var c = (str + '').charCodeAt(0); return c === 0x24 || c === 0x5F; } /** * Define a property. * * @param {Object} obj * @param {String} key * @param {*} val * @param {Boolean} [enumerable] */ function def(obj, key, val, enumerable) { Object.defineProperty(obj, key, { value: val, enumerable: !!enumerable, writable: true, configurable: true }); } /** * Parse simple path. */ var bailRE = /[^\w\.]/; function parsePath(path) { if (bailRE.test(path)) { return; } else { path = path.split('.'); return function (obj) { for (var i = 0; i < path.length; i++) { if (!obj) return; obj = obj[path[i]]; } return obj; }; } } /* global MutationObserver */ // can we use __proto__? var hasProto = '__proto__' in {}; // Browser environment sniffing var inBrowser = typeof window !== 'undefined' && Object.prototype.toString.call(window) !== '[object Object]'; // UA sniffing for working around browser-specific quirks var UA$1 = inBrowser && window.navigator.userAgent.toLowerCase(); var isIos = UA$1 && /(iphone|ipad|ipod|ios)/i.test(UA$1); var isWechat = UA$1 && UA$1.indexOf('micromessenger') > 0; /** * Defer a task to execute it asynchronously. Ideally this * should be executed as a microtask, so we leverage * MutationObserver if it's available, and fallback to * setTimeout(0). * * @param {Function} cb * @param {Object} ctx */ var nextTick = function () { var callbacks = []; var pending = false; var timerFunc; function nextTickHandler() { pending = false; var copies = callbacks.slice(0); callbacks = []; for (var i = 0; i < copies.length; i++) { copies[i](); } } /* istanbul ignore if */ if (typeof MutationObserver !== 'undefined' && !(isWechat && isIos)) { var counter = 1; var observer = new MutationObserver(nextTickHandler); var textNode = document.createTextNode(counter); observer.observe(textNode, { characterData: true }); timerFunc = function timerFunc() { counter = (counter + 1) % 2; textNode.data = counter; }; } else { // webpack attempts to inject a shim for setImmediate // if it is used as a global, so we have to work around that to // avoid bundling unnecessary code. var context = inBrowser ? window : typeof global !== 'undefined' ? global : {}; timerFunc = context.setImmediate || setTimeout; } return function (cb, ctx) { var func = ctx ? function () { cb.call(ctx); } : cb; callbacks.push(func); if (pending) return; pending = true; timerFunc(nextTickHandler, 0); }; }(); var Set$1 = void 0; /* istanbul ignore if */ if (typeof Set !== 'undefined' && Set.toString().match(/native code/)) { // use native Set when available. Set$1 = Set; } else { // a non-standard Set polyfill that only works with primitive keys. Set$1 = function _Set() { this.set = Object.create(null); }; Set$1.prototype.has = function (key) { return this.set[key] !== undefined; }; Set$1.prototype.add = function (key) { this.set[key] = 1; }; Set$1.prototype.clear = function () { this.set = Object.create(null); }; } var hasProxy = void 0; var proxyHandlers = void 0; var initProxy = void 0; if (process.env.NODE_ENV !== 'production') { (function () { var allowedGlobals = makeMap('Infinity,undefined,NaN,isFinite,isNaN,' + 'parseFloat,parseInt,decodeURI,decodeURIComponent,encodeURI,encodeURIComponent,' + 'Math,Number,Date,Array,Object,Boolean,String,RegExp,Map,Set,JSON,Intl'); hasProxy = typeof Proxy !== 'undefined' && Proxy.toString().match(/native code/); proxyHandlers = { has: function has(target, key) { var has = key in target; var isAllowedGlobal = allowedGlobals(key); if (!has && !isAllowedGlobal) { warn('Trying to access non-existent property "' + key + '" while rendering.', target); } return !isAllowedGlobal; } }; initProxy = function initProxy(vm) { if (hasProxy) { vm._renderProxy = new Proxy(vm, proxyHandlers); } else { vm._renderProxy = vm; } }; })(); } var uid$2 = 0; /** * A dep is an observable that can have multiple * directives subscribing to it. * * @constructor */ function Dep() { this.id = uid$2++; this.subs = []; } // the current target watcher being evaluated. // this is globally unique because there could be only one // watcher being evaluated at any time. Dep.target = null; /** * Add a directive subscriber. * * @param {Directive} sub */ Dep.prototype.addSub = function (sub) { this.subs.push(sub); }; /** * Remove a directive subscriber. * * @param {Directive} sub */ Dep.prototype.removeSub = function (sub) { remove(this.subs, sub); }; /** * Add self as a dependency to the target watcher. */ Dep.prototype.depend = function () { Dep.target.addDep(this); }; /** * Notify all subscribers of a new value. */ Dep.prototype.notify = function () { // stablize the subscriber list first var subs = this.subs.slice(); for (var i = 0, l = subs.length; i < l; i++) { subs[i].update(); } }; var config = { /** * Preserve whitespaces between elements. */ preserveWhitespace: true, /** * Whether to suppress warnings. * * @type {Boolean} */ silent: false, /** * Check if a tag is reserved so that it cannot be registered as a * component. This is platform-dependent and may be overwritten. */ isReservedTag: function isReservedTag() { return false; }, /** * Check if a tag is an unknown element. * Platform-dependent. */ isUnknownElement: function isUnknownElement() { return false; }, /** * List of asset types that a component can own. * * @type {Array} */ _assetTypes: ['component', 'directive', 'transition'], /** * List of lifecycle hooks. * * @type {Array} */ _lifecycleHooks: ['init', 'created', 'beforeMount', 'mounted', 'ready', 'beforeUpdate', 'updated', 'beforeDestroy', 'destroyed'], /** * Max circular updates allowed in a batcher flush cycle. */ _maxUpdateCount: 100 }; // we have two separate queues: one for directive updates // and one for user watcher registered via $watch(). // we want to guarantee directive updates to be called // before user watchers so that when user watchers are // triggered, the DOM would have already been in updated // state. var queueIndex; var queue = []; var userQueue = []; var has = {}; var circular = {}; var waiting = false; var internalQueueDepleted = false; /** * Reset the batcher's state. */ function resetBatcherState() { queue = []; userQueue = []; has = {}; circular = {}; waiting = internalQueueDepleted = false; } /** * Flush both queues and run the watchers. */ function flushBatcherQueue() { queue.sort(queueSorter); runBatcherQueue(queue); internalQueueDepleted = true; runBatcherQueue(userQueue); resetBatcherState(); } /** * Sort queue before flush. * This ensures components are updated from parent to child * so there will be no duplicate updates, e.g. a child was * pushed into the queue first and then its parent's props * changed. */ function queueSorter(a, b) { return a.id - b.id; } /** * Run the watchers in a single queue. * * @param {Array} queue */ function runBatcherQueue(queue) { // do not cache length because more watchers might be pushed // as we run existing watchers for (queueIndex = 0; queueIndex < queue.length; queueIndex++) { var watcher = queue[queueIndex]; var id = watcher.id; has[id] = null; watcher.run(); // in dev build, check and stop circular updates. if (process.env.NODE_ENV !== 'production' && has[id] != null) { circular[id] = (circular[id] || 0) + 1; if (circular[id] > config._maxUpdateCount) { warn('You may have an infinite update loop for watcher ' + 'with expression "' + watcher.expression + '"', watcher.vm); break; } } } } /** * Push a watcher into the watcher queue. * Jobs with duplicate IDs will be skipped unless it's * pushed when the queue is being flushed. * * @param {Watcher} watcher * properties: * - {Number} id * - {Function} run */ function pushWatcher(watcher) { var id = watcher.id; if (has[id] == null) { if (internalQueueDepleted && !watcher.user) { // an internal watcher triggered by a user watcher... // let's run it immediately after current user watcher is done. userQueue.splice(queueIndex + 1, 0, watcher); } else { // push watcher into appropriate queue var q = watcher.user ? userQueue : queue; has[id] = q.length; q.push(watcher); // queue the flush if (!waiting) { waiting = true; nextTick(flushBatcherQueue); } } } } var uid$1 = 0; var prevTarget = void 0; /** * A watcher parses an expression, collects dependencies, * and fires callback when the expression value changes. * This is used for both the $watch() api and directives. * * @param {Vue} vm * @param {String|Function} expOrFn * @param {Function} cb * @param {Object} options * - {Array} filters * - {Boolean} twoWay * - {Boolean} deep * - {Boolean} user * - {Boolean} sync * - {Boolean} lazy * - {Function} [preProcess] * - {Function} [postProcess] * @constructor */ function Watcher(vm, expOrFn, cb, options) { // mix in options if (options) { extend(this, options); } var isFn = typeof expOrFn === 'function'; this.vm = vm; vm._watchers.push(this); this.expression = expOrFn; this.cb = cb; this.id = ++uid$1; // uid for batching this.active = true; this.dirty = this.lazy; // for lazy watchers this.deps = []; this.newDeps = []; this.depIds = new Set$1(); this.newDepIds = new Set$1(); // parse expression for getter if (isFn) { this.getter = expOrFn; } else { this.getter = parsePath(expOrFn); if (!this.getter) { this.getter = function () {}; process.env.NODE_ENV !== 'production' && warn('Failed watching path: ' + expOrFn + 'Watcher only accepts simple dot-delimited paths. ' + 'For full control, use a function instead.', vm); } } this.value = this.lazy ? undefined : this.get(); // state for avoiding false triggers for deep and Array // watchers during vm._digest() this.queued = this.shallow = false; } /** * Evaluate the getter, and re-collect dependencies. */ Watcher.prototype.get = function () { this.beforeGet(); var value = this.getter.call(this.vm, this.vm); // "touch" every property so they are all tracked as // dependencies for deep watching if (this.deep) { traverse(value); } this.afterGet(); return value; }; /** * Prepare for dependency collection. */ Watcher.prototype.beforeGet = function () { prevTarget = Dep.target; Dep.target = this; }; /** * Add a dependency to this directive. * * @param {Dep} dep */ Watcher.prototype.addDep = function (dep) { var id = dep.id; if (!this.newDepIds.has(id)) { this.newDepIds.add(id); this.newDeps.push(dep); if (!this.depIds.has(id)) { dep.addSub(this); } } }; /** * Clean up for dependency collection. */ Watcher.prototype.afterGet = function () { Dep.target = prevTarget; var i = this.deps.length; while (i--) { var dep = this.deps[i]; if (!this.newDepIds.has(dep.id)) { dep.removeSub(this); } } var tmp = this.depIds; this.depIds = this.newDepIds; this.newDepIds = tmp; this.newDepIds.clear(); tmp = this.deps; this.deps = this.newDeps; this.newDeps = tmp; this.newDeps.length = 0; }; /** * Subscriber interface. * Will be called when a dependency changes. * * @param {Boolean} shallow */ Watcher.prototype.update = function (shallow) { if (this.lazy) { this.dirty = true; } else if (this.sync) { this.run(); } else { // if queued, only overwrite shallow with non-shallow, // but not the other way around. this.shallow = this.queued ? shallow ? this.shallow : false : !!shallow; this.queued = true; pushWatcher(this); } }; /** * Batcher job interface. * Will be called by the batcher. */ Watcher.prototype.run = function () { if (this.active) { var value = this.get(); if (value !== this.value || // Deep watchers and watchers on Object/Arrays should fire even // when the value is the same, because the value may // have mutated; but only do so if this is a // non-shallow update (caused by a vm digest). (isObject(value) || this.deep) && !this.shallow) { // set new value var oldValue = this.value; this.value = value; this.cb.call(this.vm, value, oldValue); } this.queued = this.shallow = false; } }; /** * Evaluate the value of the watcher. * This only gets called for lazy watchers. */ Watcher.prototype.evaluate = function () { // avoid overwriting another watcher that is being // collected. var current = Dep.target; this.value = this.get(); this.dirty = false; Dep.target = current; }; /** * Depend on all deps collected by this watcher. */ Watcher.prototype.depend = function () { var i = this.deps.length; while (i--) { this.deps[i].depend(); } }; /** * Remove self from all dependencies' subcriber list. */ Watcher.prototype.teardown = function () { if (this.active) { // remove self from vm's watcher list // this is a somewhat expensive operation so we skip it // if the vm is being destroyed or is performing a v-for // re-render (the watcher list is then filtered by v-for). if (!this.vm._isBeingDestroyed && !this.vm._vForRemoving) { remove(this.vm._watchers, this); } var i = this.deps.length; while (i--) { this.deps[i].removeSub(this); } this.active = false; this.vm = this.cb = this.value = null; } }; /** * Recrusively traverse an object to evoke all converted * getters, so that every nested property inside the object * is collected as a "deep" dependency. * * @param {*} val * @param {Set} seen */ var seenObjects = new Set$1(); function traverse(val, seen) { var i = void 0, keys = void 0, isA = void 0, isO = void 0; if (!seen) { seen = seenObjects; seen.clear(); } isA = isArray(val); isO = isObject(val); if (isA || isO) { if (val.__ob__) { var depId = val.__ob__.dep.id; if (seen.has(depId)) { return; } else { seen.add(depId); } } if (isA) { i = val.length; while (i--) { traverse(val[i], seen); } } else if (isO) { keys = Object.keys(val); i = keys.length; while (i--) { traverse(val[keys[i]], seen); } } } } var arrayProto = Array.prototype; var arrayMethods = Object.create(arrayProto) /** * Intercept mutating methods and emit events */ ;['push', 'pop', 'shift', 'unshift', 'splice', 'sort', 'reverse'].forEach(function (method) { // cache original method var original = arrayProto[method]; def(arrayMethods, method, function mutator() { // avoid leaking arguments: // http://jsperf.com/closure-with-arguments var i = arguments.length; var args = new Array(i); while (i--) { args[i] = arguments[i]; } var result = original.apply(this, args); var ob = this.__ob__; var inserted; switch (method) { case 'push': inserted = args; break; case 'unshift': inserted = args; break; case 'splice': inserted = args.slice(2); break; } if (inserted) ob.observeArray(inserted); // notify change ob.dep.notify(); return result; }); }); var arrayKeys = Object.getOwnPropertyNames(arrayMethods); /** * By default, when a reactive property is set, the new value is * also converted to become reactive. However when passing down props, * we don't want to force conversion because the value may be a nested value * under a frozen data structure. Converting it would defeat the optimization. */ var observerState = { shouldConvert: true }; /** * Observer class that are attached to each observed * object. Once attached, the observer converts target * object's property keys into getter/setters that * collect dependencies and dispatches updates. * * @param {Array|Object} value * @constructor */ function Observer(value) { this.value = value; this.dep = new Dep(); def(value, '__ob__', this); if (isArray(value)) { var augment = hasProto ? protoAugment : copyAugment; augment(value, arrayMethods, arrayKeys); this.observeArray(value); } else { this.walk(value); } } // Instance methods /** * Walk through each property and convert them into * getter/setters. This method should only be called when * value type is Object. * * @param {Object} obj */ Observer.prototype.walk = function (obj) { for (var key in obj) { this.convert(key, obj[key]); } }; /** * Observe a list of Array items. * * @param {Array} items */ Observer.prototype.observeArray = function (items) { for (var i = 0, l = items.length; i < l; i++) { observe(items[i]); } }; /** * Convert a property into getter/setter so we can emit * the events when the property is accessed/changed. * * @param {String} key * @param {*} val */ Observer.prototype.convert = function (key, val) { defineReactive(this.value, key, val); }; /** * Add an owner vm, so that when $set/$delete mutations * happen we can notify owner vms to proxy the keys and * digest the watchers. This is only called when the object * is observed as an instance's root $data. * * @param {Vue} vm */ Observer.prototype.addVm = function (vm) { (this.vms || (this.vms = [])).push(vm); }; /** * Remove an owner vm. This is called when the object is * swapped out as an instance's $data object. * * @param {Vue} vm */ Observer.prototype.removeVm = function (vm) { remove(this.vms, vm); }; // helpers /** * Augment an target Object or Array by intercepting * the prototype chain using __proto__ * * @param {Object|Array} target * @param {Object} src */ function protoAugment(target, src) { /* eslint-disable no-proto */ target.__proto__ = src; /* eslint-enable no-proto */ } /** * Augment an target Object or Array by defining * hidden properties. * * @param {Object|Array} target * @param {Object} proto */ function copyAugment(target, src, keys) { for (var i = 0, l = keys.length; i < l; i++) { var key = keys[i]; def(target, key, src[key]); } } /** * Attempt to create an observer instance for a value, * returns the new observer if successfully observed, * or the existing observer if the value already has one. * * @param {*} value * @param {Vue} [vm] * @return {Observer|undefined} * @static */ function observe(value, vm) { if (!isObject(value)) { return; } var ob; if (hasOwn(value, '__ob__') && value.__ob__ instanceof Observer) { ob = value.__ob__; } else if (observerState.shouldConvert && (isArray(value) || isPlainObject(value)) && Object.isExtensible(value) && !value._isVue) { ob = new Observer(value); } if (ob && vm) { ob.addVm(vm); } return ob; } /** * Define a reactive property on an Object. * * @param {Object} obj * @param {String} key * @param {*} val */ function defineReactive(obj, key, val) { var dep = new Dep(); var property = Object.getOwnPropertyDescriptor(obj, key); if (property && property.configurable === false) { return; } // cater for pre-defined getter/setters var getter = property && property.get; var setter = property && property.set; var childOb = observe(val); Object.defineProperty(obj, key, { enumerable: true, configurable: true, get: function reactiveGetter() { var value = getter ? getter.call(obj) : val; if (Dep.target) { dep.depend(); if (childOb) { childOb.dep.depend(); } if (isArray(value)) { for (var e, i = 0, l = value.length; i < l; i++) { e = value[i]; e && e.__ob__ && e.__ob__.dep.depend(); } } } return value; }, set: function reactiveSetter(newVal) { var value = getter ? getter.call(obj) : val; if (newVal === value) { return; } if (setter) { setter.call(obj, newVal); } else { val = newVal; } childOb = observe(newVal); dep.notify(); } }); } /** * Set a property on an object. Adds the new property and * triggers change notification if the property doesn't * already exist. * * @param {Object} obj * @param {String} key * @param {*} val * @public */ function set(obj, key, val) { if (isArray(obj)) { return obj.splice(key, 1, val); } if (hasOwn(obj, key)) { obj[key] = val; return; } if (obj._isVue) { set(obj._data, key, val); return; } var ob = obj.__ob__; if (!ob) { obj[key] = val; return; } ob.convert(key, val); ob.dep.notify(); if (ob.vms) { var i = ob.vms.length; while (i--) { var vm = ob.vms[i]; proxy(vm, key); vm.$forceUpdate(); } } return val; } function proxy(vm, key) { if (!isReserved(key)) { Object.defineProperty(vm, key, { configurable: true, enumerable: true, get: function proxyGetter() { return vm._data[key]; }, set: function proxySetter(val) { vm._data[key] = val; } }); } } function unproxy(vm, key) { if (!isReserved(key)) { delete vm[key]; } } function initState(vm) { vm._watchers = []; initProps(vm); initData(vm); initComputed(vm); initMethods(vm); initWatch(vm); } function initProps(vm) { var props = vm.$options.props; var propsData = vm.$options.propsData; if (props) { var keys = vm.$options.propKeys = Object.keys(props); var isRoot = !vm.$parent; // root instance props should be converted observerState.shouldConvert = isRoot; for (var i = 0; i < keys.length; i++) { var key = keys[i]; defineReactive(vm, key, validateProp(vm, key, propsData)); } observerState.shouldConvert = true; } } function initData(vm) { var data = vm.$options.data; data = vm._data = typeof data === 'function' ? data() : data || {}; if (!isPlainObject(data)) { data = {}; process.env.NODE_ENV !== 'production' && warn('data functions should return an object.', vm); } // proxy data on instance var keys = Object.keys(data); var i = keys.length; while (i--) { proxy(vm, keys[i]); } // observe data observe(data, vm); } function noop() {} function initComputed(vm) { var computed = vm.$options.computed; if (computed) { for (var key in computed) { var userDef = computed[key]; var def = { enumerable: true, configurable: true }; if (typeof userDef === 'function') { def.get = makeComputedGetter(userDef, vm); def.set = noop; } else { def.get = userDef.get ? userDef.cache !== false ? makeComputedGetter(userDef.get, vm) : bind(userDef.get, vm) : noop; def.set = userDef.set ? bind(userDef.set, vm) : noop; } Object.defineProperty(vm, key, def); } } } function makeComputedGetter(getter, owner) { var watcher = new Watcher(owner, getter, null, { lazy: true }); return function computedGetter() { if (watcher.dirty) { watcher.evaluate(); } if (Dep.target) { watcher.depend(); } return watcher.value; }; } function initMethods(vm) { var methods = vm.$options.methods; if (methods) { for (var key in methods) { vm[key] = bind(methods[key], vm); } } } function initWatch(vm) { var watch = vm.$options.watch; if (watch) { for (var key in watch) { var handler = watch[key]; if (isArray(handler)) { for (var i = 0; i < handler.length; i++) { createWatcher(vm, key, handler[i]); } } else { createWatcher(vm, key, handler); } } } } function createWatcher(vm, key, handler) { var options = void 0; if (isPlainObject(handler)) { options = handler; handler = handler.handler; } if (typeof handler === 'string') { handler = vm[handler]; } vm.$watch(key, handler, options); } function stateMixin(Vue) { Object.defineProperty(Vue.prototype, '$data', { get: function get() { return this._data; }, set: function set(newData) { if (newData !== this._data) { setData(this, newData); } } }); Vue.prototype.$watch = function (fn, cb, options) { options = options || {}; options.user = true; var watcher = new Watcher(this, fn, cb, options); if (options.immediate) { cb.call(this, watcher.value); } return function unwatchFn() { watcher.teardown(); }; }; } function setData(vm, newData) { newData = newData || {}; var oldData = vm._data; vm._data = newData; var keys, key, i; // unproxy keys not present in new data keys = Object.keys(oldData); i = keys.length; while (i--) { key = keys[i]; if (!(key in newData)) { unproxy(vm, key); } } // proxy keys not already proxied, // and trigger change for changed values keys = Object.keys(newData); i = keys.length; while (i--) { key = keys[i]; if (!hasOwn(vm, key)) { // new property proxy(vm, key); } } oldData.__ob__.removeVm(vm); observe(newData, vm); vm.$forceUpdate(); } function VNode(tag, data, children, text, elm, ns, context) { return { tag: tag, data: data, children: children, text: text, elm: elm, ns: ns, context: context, key: data && data.key }; } function flatten(children) { if (typeof children === 'string') { return [VNode(undefined, undefined, undefined, children)]; } if (isArray(children)) { var res = []; for (var i = 0, l = children.length; i < l; i++) { var c = children[i]; // flatten nested if (isArray(c)) { res.push.apply(res, flatten(c)); } else if (isPrimitive(c)) { // convert primitive to vnode res.push(VNode(undefined, undefined, undefined, c)); } else if (c) { res.push(c); } } return res; } } function updateListeners(on, oldOn, add) { var name = void 0, cur = void 0, old = void 0, event = void 0, capture = void 0; for (name in on) { cur = on[name]; old = oldOn[name]; if (old === undefined) { capture = name.charAt(0) === '!'; event = capture ? name.slice(1) : name; if (isArray(cur)) { add(event, arrInvoker(cur), capture); } else { cur = { fn: cur }; on[name] = cur; add(event, fnInvoker(cur), capture); } } else if (isArray(old)) { old.length = cur.length; for (var i = 0; i < old.length; i++) { old[i] = cur[i]; }on[name] = old; } else { old.fn = cur; on[name] = old; } } } function arrInvoker(arr) { return function (ev) { for (var i = 0; i < arr.length; i++) { arr[i](ev); } }; } function fnInvoker(o) { return function (ev) { o.fn(ev); }; } function initLifecycle(vm) { var options = vm.$options; vm.$parent = options.parent; vm.$root = vm.$parent ? vm.$parent.$root : vm; if (vm.$parent) { vm.$parent.$children.push(vm); } vm.$children = []; vm.$refs = {}; vm._isDestroyed = false; vm._isBeingDestroyed = false; } function lifecycleMixin(Vue) { Vue.prototype._mount = function () { var _this = this; if (!this.$options.render) { this.$options.render = function () { return _this.$createElement('div'); }; if (process.env.NODE_ENV !== 'production') { if (this.$options.template) { warn('You are using the runtime-only build of Vue where the template ' + 'option is not available. Either pre-compile the templates into ' + 'render functions, or use the compiler-included build.', this); } else { warn('Failed to mount component: template or render function not defined.', this); } } } // render static sub-trees for once on mount var staticRenderFns = this.$options.staticRenderFns; if (staticRenderFns) { this._staticTrees = new Array(staticRenderFns.length); for (var i = 0; i < staticRenderFns.length; i++) { this._staticTrees[i] = staticRenderFns[i].call(this._renderProxy); } } this._watcher = new Watcher(this, this._render, this._update); this._update(this._watcher.value); this._mounted = true; // root instance, call ready on self if (this.$root === this) { callHook(this, 'ready'); } return this; }; Vue.prototype._update = function (vnode) { if (this._mounted) { callHook(this, 'beforeUpdate'); } var parentNode = this.$options._parentVnode; // set vnode parent before patch vnode.parent = parentNode; if (!this._vnode) { // Vue.prototype.__patch__ is injected in entry points // based on the rendering backend used. this.$el = this.__patch__(this.$el, vnode); } else { this.$el = this.__patch__(this._vnode, vnode); } this._vnode = vnode; // set parent vnode element after patch if (parentNode) { parentNode.elm = this.$el; } if (this._mounted) { callHook(this, 'updated'); } }; Vue.prototype._updateFromParent = function (propsData, listeners, parentVnode, children) { var _this2 = this; this.$options._parentVnode = parentVnode; this.$options._renderChildren = children; // update props if (propsData && this.$options.props) { observerState.shouldConvert = false; var propKeys = this.$options.propKeys; for (var i = 0; i < propKeys.length; i++) { var key = propKeys[i]; this[key] = validateProp(this, key, propsData); } observerState.shouldConvert = true; } // update listeners if (listeners) { var oldListeners = this.$options._parentListeners; this.$options._parentListeners = listeners; updateListeners(listeners, oldListeners || {}, function (event, handler) { _this2.$on(event, handler); }); } }; Vue.prototype.$forceUpdate = function () { this._watcher.update(); }; Vue.prototype.$destroy = function () { if (this._isDestroyed) { return; } callHook(this, 'beforeDestroy'); this._isBeingDestroyed = true; // remove self from parent var parent = this.$parent; if (parent && !parent._isBeingDestroyed) { remove(parent.$children, this); } // unregister ref if (this._ref) { this._context.$refs[this._ref] = undefined; } // teardown watchers var i = this._watchers.length; while (i--) { this._watchers[i].teardown(); } // remove reference from data ob // frozen object may not have observer. if (this._data.__ob__) { this._data.__ob__.removeVm(this); } // call the last hook... this._isDestroyed = true; callHook(this, 'destroyed'); // turn off all instance listeners. this.$off(); }; } function callHook(vm, hook) { vm.$emit('pre-hook:' + hook); var handlers = vm.$options[hook]; if (handlers) { for (var i = 0, j = handlers.length; i < j; i++) { handlers[i].call(vm); } } vm.$emit('hook:' + hook); } var hooks = { init: init, prepatch: prepatch, insert: insert, destroy: destroy }; var hooksToMerge = Object.keys(hooks); function createComponent(Ctor, data, parent, children, context) { if (process.env.NODE_ENV !== 'production' && children && typeof children !== 'function') { warn('A component\'s children should be a function that returns the ' + 'children array. This allows the component to track the children ' + 'dependencies and optimizes re-rendering.'); } if (!Ctor) { return; } if (isObject(Ctor)) { Ctor = Vue.extend(Ctor); } if (process.env.NODE_ENV !== 'production' && typeof Ctor !== 'function') { warn('Invalid Component definition: ' + Ctor, parent); return; } // async component if (!Ctor.cid) { if (Ctor.resolved) { Ctor = Ctor.resolved; } else { resolveAsyncComponent(Ctor, function () { // it's ok to queue this on every render because // $forceUpdate is buffered. parent.$forceUpdate(); }); return; } } data = data || {}; // merge component management hooks onto the placeholder node mergeHooks(data); // extract props var propsData = extractProps(data, Ctor); // extract listeners, since these needs to be treated as // child component listeners instead of DOM listeners var listeners = data.on; if (listeners) { data.on = null; } // return a placeholder vnode var name = Ctor.options.name ? '-' + Ctor.options.name : ''; var vnode = VNode('vue-component-' + Ctor.cid + name, data, undefined, undefined, undefined, undefined, context); vnode.componentOptions = { Ctor: Ctor, propsData: propsData, listeners: listeners, parent: parent, children: children }; return vnode; } function init(vnode) { var _vnode$componentOptio = vnode.componentOptions; var Ctor = _vnode$componentOptio.Ctor; var propsData = _vnode$componentOptio.propsData; var listeners = _vnode$componentOptio.listeners; var parent = _vnode$componentOptio.parent; var children = _vnode$componentOptio.children; var child = new Ctor({ parent: parent, propsData: propsData, _parentVnode: vnode, _parentListeners: listeners, _renderChildren: children }); // if this is a server-rendered mount, // the vnode would already have an element. // otherwise the child sets the parent vnode's elm when mounted // and when updated. child.$mount(vnode.elm); vnode.child = child; } function prepatch(oldVnode, vnode) { var _vnode$componentOptio2 = vnode.componentOptions; var listeners = _vnode$componentOptio2.listeners; var propsData = _vnode$componentOptio2.propsData; var children = _vnode$componentOptio2.children; vnode.child = oldVnode.child; vnode.child._updateFromParent(propsData, // updated props listeners, // updated listeners vnode, // new parent vnode children // new children ); } function insert(vnode) { callHook(vnode.child, 'ready'); } function destroy(vnode) { vnode.child.$destroy(); } function resolveAsyncComponent(factory, cb) { if (factory.resolved) { // cached cb(factory.resolved); } else if (factory.requested) { // pool callbacks factory.pendingCallbacks.push(cb); } else { (function () { factory.requested = true; var cbs = factory.pendingCallbacks = [cb]; factory(function resolve(res) { if (isObject(res)) { res = Vue.extend(res); } // cache resolved factory.resolved = res; // invoke callbacks for (var i = 0, l = cbs.length; i < l; i++) { cbs[i](res); } }, function reject(reason) { process.env.NODE_ENV !== 'production' && warn('Failed to resolve async component: ' + factory + (reason ? '\nReason: ' + reason : '')); }); })(); } } function extractProps(data, Ctor) { // we are only extrating raw values here. // validation and default values are handled in the child // component itself. var propOptions = Ctor.options.props; if (!propOptions) { return; } var res = {}; var attrs = data.attrs; var props = data.props; var staticAttrs = data.staticAttrs; if (!attrs && !props) { return res; } for (var key in propOptions) { var altKey = hyphenate(key); checkProp(res, attrs, key, altKey) || checkProp(res, props, key, altKey) || checkProp(res, staticAttrs, key, altKey); } return res; } function checkProp(res, hash, key, altKey) { if (hash) { if (hasOwn(hash, key)) { res[key] = hash[key]; delete hash[key]; return true; } else if (hasOwn(hash, altKey)) { res[key] = hash[altKey]; delete hash[altKey]; return true; } } } function mergeHooks(data) { if (data.hook) { for (var i = 0; i < hooksToMerge.length; i++) { var key = hooksToMerge[i]; var fromParent = data.hook[key]; var ours = hooks[key]; data.hook[key] = fromParent ? mergeHook$1(ours, fromParent) : ours; } } else { data.hook = hooks; } } function mergeHook$1(a, b) { // since all hooks have at most two args, use fixed args // to avoid having to use fn.apply(). return function (_, __) { a(_, __); b(_, __); }; } function createElement(tag, data, children, namespace) { var context = this; var parent = renderState.activeInstance; if (typeof tag === 'string') { var Ctor = void 0; if (config.isReservedTag(tag)) { return VNode(tag, data, flatten(children), undefined, undefined, namespace, context); } else if (Ctor = resolveAsset(context.$options, 'components', tag)) { return createComponent(Ctor, data, parent, children, context); } else { if (process.env.NODE_ENV !== 'production') { if (!namespace && config.isUnknownElement(tag)) { warn('Unknown custom element: <' + tag + '> - did you ' + 'register the component correctly? For recursive components, ' + 'make sure to provide the "name" option.'); } } return VNode(tag, data, flatten(children && children()), undefined, undefined, namespace, context); } } else { return createComponent(tag, data, parent, children, context); } } var renderState = { activeInstance: null }; function initRender(vm) { vm._vnode = null; vm._mounted = false; vm._staticTrees = null; vm.$slots = {}; // bind the public createElement fn to this instance // so that we get proper render context inside it. vm.$createElement = bind(createElement, vm); if (vm.$options.el) { vm.$mount(vm.$options.el); } } function renderMixin(Vue) { Vue.prototype._render = function () { var prev = renderState.activeInstance; renderState.activeInstance = this; var _$options = this.$options; var render = _$options.render; var _renderChildren = _$options._renderChildren; // resolve slots. becaues slots are rendered in parent scope, // we set the activeInstance to parent. if (_renderChildren) { resolveSlots(this, _renderChildren); } // render self var vnode = render.call(this._renderProxy); // restore render state renderState.activeInstance = prev; return vnode; }; // shorthands used in render functions Vue.prototype.__h__ = createElement; // toString for mustaches Vue.prototype.__toString__ = renderString; // render v-for Vue.prototype.__renderList__ = function (val, render) { var ret = void 0, i = void 0, l = void 0, keys = void 0, key = void 0; if (isArray(val)) { ret = new Array(val.length); for (i = 0, l = val.length; i < l; i++) { ret[i] = render(val[i], i, i); } } else if (typeof val === 'number') { ret = new Array(val); for (i = 0; i < val; i++) { ret[i] = render(i + 1, i, i); } } else if (isObject(val)) { keys = Object.keys(val); ret = new Array(keys.length); for (i = 0, l = keys.length; i < l; i++) { key = keys[i]; ret[i] = render(val[key], i, key); } } return ret; }; // register ref Vue.prototype.__registerRef__ = function (key, ref, vFor, remove) { var refs = this.$refs; if (remove) { if (vFor) { remove(refs[key], ref); } else { refs[key] = undefined; } } else { if (vFor) { if (refs[key]) { refs[key].push(ref); } else { refs[key] = [ref]; } } else { refs[key] = ref; } } }; } function resolveSlots(vm, children) { if (children) { children = flatten(isArray(children) ? children : children()); var slots = { default: children }; var i = children.length; var name = void 0, child = void 0; while (i--) { child = children[i]; if (name = child.data && child.data.slot) { var slot = slots[name] || (slots[name] = []); if (child.tag === 'template') { slot.push.apply(slot, child.children); } else { slot.push(child); } children.splice(i, 1); } } vm.$slots = slots; } } function initEvents(vm) { vm._events = Object.create(null); // init parent attached events var listeners = vm.$options._parentListeners; if (listeners) { updateListeners(listeners, {}, function (event, handler) { vm.$on(event, handler); }); } } function eventsMixin(Vue) { Vue.prototype.$on = function (event, fn) { (this._events[event] || (this._events[event] = [])).push(fn); return this; }; /** * Adds an `event` listener that will be invoked a single * time then automatically removed. * * @param {String} event * @param {Function} fn */ Vue.prototype.$once = function (event, fn) { var self = this; function on() { self.$off(event, on); fn.apply(this, arguments); } on.fn = fn; this.$on(event, on); return this; }; /** * Remove the given callback for `event` or all * registered callbacks. * * @param {String} event * @param {Function} fn */ Vue.prototype.$off = function (event, fn) { var cbs; // all if (!arguments.length) { this._events = Object.create(null); return this; } // specific event cbs = this._events[event]; if (!cbs) { return this; } if (arguments.length === 1) { this._events[event] = null; return this; } // specific handler var cb; var i = cbs.length; while (i--) { cb = cbs[i]; if (cb === fn || cb.fn === fn) { cbs.splice(i, 1); break; } } return this; }; /** * Trigger an event on self. * * @param {String} event */ Vue.prototype.$emit = function (event) { var cbs = this._events[event]; if (cbs) { cbs = cbs.length > 1 ? toArray(cbs) : cbs; var args = toArray(arguments, 1); for (var i = 0, l = cbs.length; i < l; i++) { cbs[i].apply(this, args); } } }; } var uid = 0; function Vue(options) { this._init(options); } Vue.prototype._init = function (options) { // a uid this._uid = uid++; // a flag to avoid this being observed this._isVue = true; // merge options this.$options = mergeOptions(this.constructor.options, options || {}, this); if (process.env.NODE_ENV !== 'production') { initProxy(this); } else { this._renderProxy = this; } initLifecycle(this); initEvents(this); callHook(this, 'init'); initState(this); callHook(this, 'created'); initRender(this); }; Vue.prototype.$nextTick = function (fn) { nextTick(fn, this); }; stateMixin(Vue); eventsMixin(Vue); lifecycleMixin(Vue); renderMixin(Vue); var warn = void 0; var formatComponentName = void 0; if (process.env.NODE_ENV !== 'production') { (function () { var hasConsole = typeof console !== 'undefined'; warn = function warn(msg, vm) { if (hasConsole && !config.silent) { console.error('[Vue warn]: ' + msg + (vm ? formatComponentName(vm) : '')); } }; formatComponentName = function formatComponentName(vm) { var name = vm._isVue ? vm.$options.name : vm.name; return name ? ' (found in component: <' + hyphenate(name) + '>)' : ''; }; })(); } /** * Option overwriting strategies are functions that handle * how to merge a parent option value and a child option * value into the final value. * * All strategy functions follow the same signature: * * @param {*} parentVal * @param {*} childVal * @param {Vue} [vm] */ var strats = config.optionMergeStrategies = Object.create(null); /** * Helper that recursively merges two data objects together. */ function mergeData(to, from) { var key, toVal, fromVal; for (key in from) { toVal = to[key]; fromVal = from[key]; if (!hasOwn(to, key)) { set(to, key, fromVal); } else if (isObject(toVal) && isObject(fromVal)) { mergeData(toVal, fromVal); } } return to; } /** * Data */ strats.data = function (parentVal, childVal, vm) { if (!vm) { // in a Vue.extend merge, both should be functions if (!childVal) { return parentVal; } if (typeof childVal !== 'function') { process.env.NODE_ENV !== 'production' && warn('The "data" option should be a function ' + 'that returns a per-instance value in component ' + 'definitions.', vm); return parentVal; } if (!parentVal) { return childVal; } // when parentVal & childVal are both present, // we need to return a function that returns the // merged result of both functions... no need to // check if parentVal is a function here because // it has to be a function to pass previous merges. return function mergedDataFn() { return mergeData(childVal.call(this), parentVal.call(this)); }; } else if (parentVal || childVal) { return function mergedInstanceDataFn() { // instance merge var instanceData = typeof childVal === 'function' ? childVal.call(vm) : childVal; var defaultData = typeof parentVal === 'function' ? parentVal.call(vm) : undefined; if (instanceData) { return mergeData(instanceData, defaultData); } else { return defaultData; } }; } }; /** * El */ strats.el = function (parentVal, childVal, vm) { if (!vm && childVal && typeof childVal !== 'function') { process.env.NODE_ENV !== 'production' && warn('The "el" option should be a function ' + 'that returns a per-instance value in component ' + 'definitions.', vm); return; } var ret = childVal || parentVal; // invoke the element factory if this is instance merge return vm && typeof ret === 'function' ? ret.call(vm) : ret; }; /** * Hooks and param attributes are merged as arrays. */ function mergeHook(parentVal, childVal) { return childVal ? parentVal ? parentVal.concat(childVal) : isArray(childVal) ? childVal : [childVal] : parentVal; } config._lifecycleHooks.forEach(function (hook) { strats[hook] = mergeHook; }); /** * Assets * * When a vm is present (instance creation), we need to do * a three-way merge between constructor options, instance * options and parent options. */ function mergeAssets(parentVal, childVal) { var res = Object.create(parentVal); return childVal ? extend(res, childVal) : res; } config._assetTypes.forEach(function (type) { strats[type + 's'] = mergeAssets; }); /** * Watchers. * * Watchers hashes should not overwrite one * another, so we merge them as arrays. */ strats.watch = function (parentVal, childVal) { if (!childVal) return parentVal; if (!parentVal) return childVal; var ret = {}; extend(ret, parentVal); for (var key in childVal) { var parent = ret[key]; var child = childVal[key]; if (parent && !isArray(parent)) { parent = [parent]; } ret[key] = parent ? parent.concat(child) : [child]; } return ret; }; /** * Other object hashes. */ strats.props = strats.methods = strats.computed = function (parentVal, childVal) { if (!childVal) return parentVal; if (!parentVal) return childVal; var ret = Object.create(null); extend(ret, parentVal); extend(ret, childVal); return ret; }; /** * Default strategy. */ var defaultStrat = function defaultStrat(parentVal, childVal) { return childVal === undefined ? parentVal : childVal; }; /** * Make sure component options get converted to actual * constructors. * * @param {Object} options */ function guardComponents(options) { if (options.components) { var components = options.components; var def; for (var key in components) { if (isBuiltInTag(key) || config.isReservedTag(key)) { process.env.NODE_ENV !== 'production' && warn('Do not use built-in or reserved HTML elements as component ' + 'id: ' + key); continue; } def = components[key]; if (isPlainObject(def)) { components[key] = Vue.extend(def); } } } } /** * Ensure all props option syntax are normalized into the * Object-based format. * * @param {Object} options */ function guardProps(options) { var props = options.props; if (!props) return; var res = {}; var i = void 0, val = void 0, name = void 0; if (isArray(props)) { i = props.length; while (i--) { val = props[i]; if (typeof val === 'string') { name = camelize(val); res[name] = { type: null }; } else if (process.env.NODE_ENV !== 'production') { warn('props must be strings when using array syntax.'); } } } else if (isPlainObject(props)) { for (var key in props) { val = props[key]; name = camelize(key); res[name] = isPlainObject(val) ? val : { type: val }; } } options.props = res; } function guardDirectives(options) { var dirs = options.directives; if (dirs) { for (var key in dirs) { if (typeof dirs[key] === 'function') { dirs[key] = { update: dirs[key] }; } } } } /** * Merge two option objects into a new one. * Core utility used in both instantiation and inheritance. * * @param {Object} parent * @param {Object} child * @param {Vue} [vm] - if vm is present, indicates this is * an instantiation merge. */ function mergeOptions(parent, child, vm) { guardComponents(child); guardProps(child); guardDirectives(child); if (process.env.NODE_ENV !== 'production') { if (child.propsData && !vm) { warn('propsData can only be used as an instantiation option.'); } } var options = {}; var key; if (child.mixins) { for (var i = 0, l = child.mixins.length; i < l; i++) { parent = mergeOptions(parent, child.mixins[i], vm); } } for (key in parent) { mergeField(key); } for (key in child) { if (!hasOwn(parent, key)) { mergeField(key); } } function mergeField(key) { var strat = strats[key] || defaultStrat; options[key] = strat(parent[key], child[key], vm, key); } return options; } /** * Resolve an asset. * This function is used because child instances need access * to assets defined in its ancestor chain. * * @param {Object} options * @param {String} type * @param {String} id * @param {Boolean} warnMissing * @return {Object|Function} */ function resolveAsset(options, type, id, warnMissing) { /* istanbul ignore if */ if (typeof id !== 'string') { return; } var assets = options[type]; var camelizedId; var res = assets[id] || // camelCase ID assets[camelizedId = camelize(id)] || // Pascal Case ID assets[camelizedId.charAt(0).toUpperCase() + camelizedId.slice(1)]; if (process.env.NODE_ENV !== 'production' && warnMissing && !res) { warn('Failed to resolve ' + type.slice(0, -1) + ': ' + id, options); } return res; } function validateProp(vm, key, propsData) { if (!propsData) return; var prop = vm.$options.props[key]; var absent = hasOwn(propsData, key); var value = propsData[key]; // check default value if (value === undefined) { value = getPropDefaultValue(vm, prop, key); // since the default value is a fresh copy, // make sure to observe it. observerState.shouldConvert = true; observe(value); observerState.shouldConvert = false; } if (process.env.NODE_ENV !== 'production') { assertProp(prop, key, value, vm, absent); } return value; } /** * Get the default value of a prop. * * @param {Vue} vm * @param {Object} prop * @return {*} */ function getPropDefaultValue(vm, prop, name) { // no default, return undefined if (!hasOwn(prop, 'default')) { // absent boolean value defaults to false return prop.type === Boolean ? false : undefined; } var def = prop.default; // warn against non-factory defaults for Object & Array if (isObject(def)) { process.env.NODE_ENV !== 'production' && warn('Invalid default value for prop "' + name + '": ' + 'Props with type Object/Array must use a factory function ' + 'to return the default value.', vm); } // call factory function for non-Function types return typeof def === 'function' && prop.type !== Function ? def.call(vm) : def; } /** * Assert whether a prop is valid. * * @param {Object} prop * @param {String} name * @param {*} value * @param {Vue} vm * @param {Boolean} absent */ function assertProp(prop, name, value, vm, absent) { if (prop.required && absent) { process.env.NODE_ENV !== 'production' && warn('Missing required prop: "' + name + '"', vm); return false; } if (value == null) { return true; } var type = prop.type; var valid = !type; var expectedTypes = []; if (type) { if (!isArray(type)) { type = [type]; } for (var i = 0; i < type.length && !valid; i++) { var assertedType = assertType(value, type[i]); expectedTypes.push(assertedType.expectedType); valid = assertedType.valid; } } if (!valid) { if (process.env.NODE_ENV !== 'production') { warn('Invalid prop: type check failed for prop "' + name + '".' + ' Expected ' + expectedTypes.map(formatType).join(', ') + ', got ' + formatValue(value) + '.', vm); } return false; } var validator = prop.validator; if (validator) { if (!validator(value)) { process.env.NODE_ENV !== 'production' && warn('Invalid prop: custom validator check failed for prop "' + name + '".', vm); return false; } } return true; } /** * Assert the type of a value * * @param {*} value * @param {Function} type * @return {Object} */ function assertType(value, type) { var valid; var expectedType; if (type === String) { expectedType = 'string'; valid = typeof value === expectedType; } else if (type === Number) { expectedType = 'number'; valid = typeof value === expectedType; } else if (type === Boolean) { expectedType = 'boolean'; valid = typeof value === expectedType; } else if (type === Function) { expectedType = 'function'; valid = typeof value === expectedType; } else if (type === Object) { expectedType = 'object'; valid = isPlainObject(value); } else if (type === Array) { expectedType = 'array'; valid = isArray(value); } else { valid = value instanceof type; } return { valid: valid, expectedType: expectedType }; } /** * Format type for output * * @param {String} type * @return {String} */ function formatType(type) { return type ? type.charAt(0).toUpperCase() + type.slice(1) : 'custom type'; } /** * Format value * * @param {*} value * @return {String} */ function formatValue(val) { return Object.prototype.toString.call(val).slice(8, -1); } // attributes that should be using props for binding var mustUseProp = makeMap('value,selected,checked,muted'); var isEnumeratedAttr = makeMap('contenteditable,draggable,spellcheck'); var isBooleanAttr = makeMap('allowfullscreen,async,autofocus,autoplay,checked,compact,controls,declare,' + 'default,defaultchecked,defaultmuted,defaultselected,defer,disabled,' + 'enabled,formnovalidate,hidden,indeterminate,inert,ismap,itemscope,loop,multiple,' + 'muted,nohref,noresize,noshade,novalidate,nowrap,open,pauseonexit,readonly,' + 'required,reversed,scoped,seamless,selected,sortable,translate,' + 'truespeed,typemustmatch,visible'); var propsToAttrMap = { acceptCharset: 'accept-charset', className: 'class', htmlFor: 'for', httpEquiv: 'http-equiv' }; function genClassForVnode(vnode) { var data = vnode.data; // Important: check if this is a component container node // or a child component root node var i = void 0; if ((i = vnode.child) && (i = i._vnode.data)) { data = mergeClassData(i, data); } if ((i = vnode.parent) && (i = i.data)) { data = mergeClassData(data, i); } return genClassFromData(data); } function mergeClassData(child, parent) { return { staticClass: concat(child.staticClass, parent.staticClass), class: child.class ? extend(child.class, parent.class) : parent.class }; } function genClassFromData(data) { var dynamicClass = data.class; var staticClass = data.staticClass; if (staticClass || dynamicClass) { return concat(staticClass, stringifyClass(dynamicClass)); } } function concat(a, b) { return a ? b ? a + ' ' + b : a : b || ''; } function stringifyClass(value) { if (!value) { return ''; } if (typeof value === 'string') { return value; } if (isArray(value)) { var res = ''; for (var i = 0, l = value.length; i < l; i++) { if (value[i]) res += stringifyClass(value[i]) + ' '; } return res.slice(0, -1); } if (isObject(value)) { var _res = ''; for (var key in value) { if (value[key]) _res += key + ' '; } return _res.slice(0, -1); } } var isReservedTag = makeMap('html,base,head,link,meta,style,title,' + 'address,article,footer,header,h1,h2,h3,h4,h5,h6,hgroup,nav,section,' + 'div,dd,dl,dt,figcaption,figure,hr,li,main,ol,p,pre,ul,' + 'a,b,abbr,bdi,bdo,br,cite,code,data,dfn,em,i,kbd,mark,q,rp,rt,rtc,ruby,' + 's,samp,small,span,strong,sub,sup,time,u,var,wbr,area,audio,map,track,video,' + 'embed,object,param,source,canvas,script,noscript,del,ins,' + 'caption,col,colgroup,table,thead,tbody,td,th,tr,' + 'button,datalist,fieldset,form,input,label,legend,meter,optgroup,option,' + 'output,progress,select,textarea,' + 'details,dialog,menu,menuitem,summary,' + 'content,element,shadow,template'); var isUnaryTag = makeMap('area,base,br,col,embed,frame,hr,img,input,isindex,keygen,' + 'link,meta,param,source,track,wbr', true); // Elements that you can, intentionally, leave open // (and which close themselves) var canBeLeftOpenTag = makeMap('colgroup,dd,dt,li,options,p,td,tfoot,th,thead,tr,source', true); // HTML5 tags https://html.spec.whatwg.org/multipage/indices.html#elements-3 // Phrasing Content https://html.spec.whatwg.org/multipage/dom.html#phrasing-content var isNonPhrasingTag = makeMap('address,article,aside,base,blockquote,body,caption,col,colgroup,dd,' + 'details,dialog,div,dl,dt,fieldset,figcaption,figure,footer,form,' + 'h1,h2,h3,h4,h5,h6,head,header,hgroup,hr,html,legend,li,menuitem,meta,' + 'optgroup,option,param,rp,rt,source,style,summary,tbody,td,tfoot,th,thead,' + 'title,tr,track', true); // this map covers namespace elements that can appear as template root nodes var isSVG = makeMap('svg,g,defs,symbol,use,image,text,circle,ellipse,' + 'line,path,polygon,polyline,rect', true); var UA = inBrowser && window.navigator.userAgent.toLowerCase(); var isIE9 = UA && UA.indexOf('msie 9.0') > 0; var isAndroid = UA && UA.indexOf('android') > 0; function renderAttrs(node) { if (node.data.attrs || node.data.props || node.data.staticAttrs) { return serialize(node.data.staticAttrs) + serialize(node.data.attrs) + serialize(node.data.props, true); } } function serialize(attrs, asProps) { var res = ''; if (!attrs) { return res; } for (var key in attrs) { if (key === 'style') { // leave it to the style module continue; } if (asProps) { key = propsToAttrMap[key] || key.toLowerCase(); } if (attrs[key] != null) { if (isBooleanAttr(key)) { res += ' ' + key + '="' + key + '"'; } else if (isEnumeratedAttr(key)) { res += ' ' + key + '="true"'; } else { res += ' ' + key + '="' + attrs[key] + '"'; } } } return res; } function renderClass(node) { if (node.data.class || node.data.staticClass) { return ' class="' + genClassForVnode(node) + '"'; } } function renderStyle(node) { var staticStyle = node.data.staticAttrs && node.data.staticAttrs.style; if (node.data.style || staticStyle) { var styles = node.data.style; var res = ' style="'; for (var key in styles) { res += hyphenate(key) + ':' + styles[key] + ';'; } return res + (staticStyle || '') + '"'; } } function show(node, dir) { if (!dir.value) { (node.data.style || (node.data.style = {})).display = 'none'; } } var modules = [renderAttrs, renderClass, renderStyle]; var baseDirectives = { show: show }; function publicCreateRenderer() { var options = arguments.length <= 0 || arguments[0] === undefined ? {} : arguments[0]; // user can provide server-side implementations for custom directives // when creating the renderer. var directives = Object.assign(baseDirectives, options.directives); return createRenderer({ isUnaryTag: isUnaryTag, modules: modules, directives: directives }); } module.exports = publicCreateRenderer;