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/*! * Vue.js v2.6.14 * (c) 2014-2021 Evan You * Released under the MIT License. *//* */
const emptyObject = Object.freeze({});
// These helpers produce better VM code in JS engines due to their
// explicitness and function inlining.
function isUndef (v) { return v === undefined || v === null}
function isDef (v) { return v !== undefined && v !== null}
function isTrue (v) { return v === true}
function isFalse (v) { return v === false}
/** * Check if value is primitive. */function isPrimitive (value) { return ( typeof value === 'string' || typeof value === 'number' || // $flow-disable-line
typeof value === 'symbol' || typeof value === 'boolean' )}
/** * Quick object check - this is primarily used to tell * Objects from primitive values when we know the value * is a JSON-compliant type. */function isObject (obj) { return obj !== null && typeof obj === 'object'}
/** * Get the raw type string of a value, e.g., [object Object]. */const _toString = Object.prototype.toString;
function toRawType (value) { return _toString.call(value).slice(8, -1)}
/** * Strict object type check. Only returns true * for plain JavaScript objects. */function isPlainObject (obj) { return _toString.call(obj) === '[object Object]'}
function isRegExp (v) { return _toString.call(v) === '[object RegExp]'}
/** * Check if val is a valid array index. */function isValidArrayIndex (val) { const n = parseFloat(String(val)); return n >= 0 && Math.floor(n) === n && isFinite(val)}
function isPromise (val) { return ( isDef(val) && typeof val.then === 'function' && typeof val.catch === 'function' )}
/** * Convert a value to a string that is actually rendered. */function toString (val) { return val == null ? '' : Array.isArray(val) || (isPlainObject(val) && val.toString === _toString) ? JSON.stringify(val, null, 2) : String(val)}
/** * Convert an input value to a number for persistence. * If the conversion fails, return original string. */function toNumber (val) { const n = parseFloat(val); return isNaN(n) ? val : n}
/** * Make a map and return a function for checking if a key * is in that map. */function makeMap ( str, expectsLowerCase) { const map = Object.create(null); const list = str.split(','); for (let i = 0; i < list.length; i++) { map[list[i]] = true; } return expectsLowerCase ? val => map[val.toLowerCase()] : val => map[val]}
/** * Check if a tag is a built-in tag. */const isBuiltInTag = makeMap('slot,component', true);
/** * Check if an attribute is a reserved attribute. */const isReservedAttribute = makeMap('key,ref,slot,slot-scope,is');
/** * Remove an item from an array. */function remove (arr, item) { if (arr.length) { const index = arr.indexOf(item); if (index > -1) { return arr.splice(index, 1) } }}
/** * Check whether an object has the property. */const hasOwnProperty = Object.prototype.hasOwnProperty;function hasOwn (obj, key) { return hasOwnProperty.call(obj, key)}
/** * Create a cached version of a pure function. */function cached (fn) { const cache = Object.create(null); return (function cachedFn (str) { const hit = cache[str]; return hit || (cache[str] = fn(str)) })}
/** * Camelize a hyphen-delimited string. */const camelizeRE = /-(\w)/g;const camelize = cached((str) => { return str.replace(camelizeRE, (_, c) => c ? c.toUpperCase() : '')});
/** * Capitalize a string. */const capitalize = cached((str) => { return str.charAt(0).toUpperCase() + str.slice(1)});
/** * Hyphenate a camelCase string. */const hyphenateRE = /\B([A-Z])/g;const hyphenate = cached((str) => { return str.replace(hyphenateRE, '-$1').toLowerCase()});
/** * Simple bind polyfill for environments that do not support it, * e.g., PhantomJS 1.x. Technically, we don't need this anymore * since native bind is now performant enough in most browsers. * But removing it would mean breaking code that was able to run in * PhantomJS 1.x, so this must be kept for backward compatibility. */
/* istanbul ignore next */function polyfillBind (fn, ctx) { function boundFn (a) { const l = arguments.length; return l ? l > 1 ? fn.apply(ctx, arguments) : fn.call(ctx, a) : fn.call(ctx) }
boundFn._length = fn.length; return boundFn}
function nativeBind (fn, ctx) { return fn.bind(ctx)}
const bind = Function.prototype.bind ? nativeBind : polyfillBind;
/** * Convert an Array-like object to a real Array. */function toArray (list, start) { start = start || 0; let i = list.length - start; const ret = new Array(i); while (i--) { ret[i] = list[i + start]; } return ret}
/** * Mix properties into target object. */function extend (to, _from) { for (const key in _from) { to[key] = _from[key]; } return to}
/** * Merge an Array of Objects into a single Object. */function toObject (arr) { const res = {}; for (let i = 0; i < arr.length; i++) { if (arr[i]) { extend(res, arr[i]); } } return res}
/* eslint-disable no-unused-vars */
/** * Perform no operation. * Stubbing args to make Flow happy without leaving useless transpiled code * with ...rest (https://flow.org/blog/2017/05/07/Strict-Function-Call-Arity/).
*/function noop (a, b, c) {}
/** * Always return false. */const no = (a, b, c) => false;
/* eslint-enable no-unused-vars */
/** * Return the same value. */const identity = (_) => _;
/** * Generate a string containing static keys from compiler modules. */function genStaticKeys (modules) { return modules.reduce((keys, m) => { return keys.concat(m.staticKeys || []) }, []).join(',')}
/** * Check if two values are loosely equal - that is, * if they are plain objects, do they have the same shape? */function looseEqual (a, b) { if (a === b) return true const isObjectA = isObject(a); const isObjectB = isObject(b); if (isObjectA && isObjectB) { try { const isArrayA = Array.isArray(a); const isArrayB = Array.isArray(b); if (isArrayA && isArrayB) { return a.length === b.length && a.every((e, i) => { return looseEqual(e, b[i]) }) } else if (a instanceof Date && b instanceof Date) { return a.getTime() === b.getTime() } else if (!isArrayA && !isArrayB) { const keysA = Object.keys(a); const keysB = Object.keys(b); return keysA.length === keysB.length && keysA.every(key => { return looseEqual(a[key], b[key]) }) } else { /* istanbul ignore next */ return false } } catch (e) { /* istanbul ignore next */ return false } } else if (!isObjectA && !isObjectB) { return String(a) === String(b) } else { return false }}
/** * Return the first index at which a loosely equal value can be * found in the array (if value is a plain object, the array must * contain an object of the same shape), or -1 if it is not present. */function looseIndexOf (arr, val) { for (let i = 0; i < arr.length; i++) { if (looseEqual(arr[i], val)) return i } return -1}
/** * Ensure a function is called only once. */function once (fn) { let called = false; return function () { if (!called) { called = true; fn.apply(this, arguments); } }}
const SSR_ATTR = 'data-server-rendered';
const ASSET_TYPES = [ 'component', 'directive', 'filter'];
const LIFECYCLE_HOOKS = [ 'beforeCreate', 'created', 'beforeMount', 'mounted', 'beforeUpdate', 'updated', 'beforeDestroy', 'destroyed', 'activated', 'deactivated', 'errorCaptured', 'serverPrefetch'];
/* */
var config = ({ /** * Option merge strategies (used in core/util/options) */ // $flow-disable-line
optionMergeStrategies: Object.create(null),
/** * Whether to suppress warnings. */ silent: false,
/** * Show production mode tip message on boot? */ productionTip: "development" !== 'production',
/** * Whether to enable devtools */ devtools: "development" !== 'production',
/** * Whether to record perf */ performance: false,
/** * Error handler for watcher errors */ errorHandler: null,
/** * Warn handler for watcher warns */ warnHandler: null,
/** * Ignore certain custom elements */ ignoredElements: [],
/** * Custom user key aliases for v-on */ // $flow-disable-line
keyCodes: Object.create(null),
/** * Check if a tag is reserved so that it cannot be registered as a * component. This is platform-dependent and may be overwritten. */ isReservedTag: no,
/** * Check if an attribute is reserved so that it cannot be used as a component * prop. This is platform-dependent and may be overwritten. */ isReservedAttr: no,
/** * Check if a tag is an unknown element. * Platform-dependent. */ isUnknownElement: no,
/** * Get the namespace of an element */ getTagNamespace: noop,
/** * Parse the real tag name for the specific platform. */ parsePlatformTagName: identity,
/** * Check if an attribute must be bound using property, e.g. value * Platform-dependent. */ mustUseProp: no,
/** * Perform updates asynchronously. Intended to be used by Vue Test Utils * This will significantly reduce performance if set to false. */ async: true,
/** * Exposed for legacy reasons */ _lifecycleHooks: LIFECYCLE_HOOKS});
/* */
/** * unicode letters used for parsing html tags, component names and property paths. * using https://www.w3.org/TR/html53/semantics-scripting.html#potentialcustomelementname
* skipping \u10000-\uEFFFF due to it freezing up PhantomJS */const unicodeRegExp = /a-zA-Z\u00B7\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u037D\u037F-\u1FFF\u200C-\u200D\u203F-\u2040\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD/;
/** * Check if a string starts with $ or _ */function isReserved (str) { const c = (str + '').charCodeAt(0); return c === 0x24 || c === 0x5F}
/** * Define a property. */function def (obj, key, val, enumerable) { Object.defineProperty(obj, key, { value: val, enumerable: !!enumerable, writable: true, configurable: true });}
/** * Parse simple path. */const bailRE = new RegExp(`[^${unicodeRegExp.source}.$_\\d]`);function parsePath (path) { if (bailRE.test(path)) { return } const segments = path.split('.'); return function (obj) { for (let i = 0; i < segments.length; i++) { if (!obj) return obj = obj[segments[i]]; } return obj }}
/* */
// can we use __proto__?
const hasProto = '__proto__' in {};
// Browser environment sniffing
const inBrowser = typeof window !== 'undefined';const inWeex = typeof WXEnvironment !== 'undefined' && !!WXEnvironment.platform;const weexPlatform = inWeex && WXEnvironment.platform.toLowerCase();const UA = inBrowser && window.navigator.userAgent.toLowerCase();const isIE = UA && /msie|trident/.test(UA);const isIE9 = UA && UA.indexOf('msie 9.0') > 0;const isEdge = UA && UA.indexOf('edge/') > 0;const isAndroid = (UA && UA.indexOf('android') > 0) || (weexPlatform === 'android');const isIOS = (UA && /iphone|ipad|ipod|ios/.test(UA)) || (weexPlatform === 'ios');const isChrome = UA && /chrome\/\d+/.test(UA) && !isEdge;const isPhantomJS = UA && /phantomjs/.test(UA);const isFF = UA && UA.match(/firefox\/(\d+)/);
// Firefox has a "watch" function on Object.prototype...
const nativeWatch = ({}).watch;
let supportsPassive = false;if (inBrowser) { try { const opts = {}; Object.defineProperty(opts, 'passive', ({ get () { /* istanbul ignore next */ supportsPassive = true; } })); // https://github.com/facebook/flow/issues/285
window.addEventListener('test-passive', null, opts); } catch (e) {}}
// this needs to be lazy-evaled because vue may be required before
// vue-server-renderer can set VUE_ENV
let _isServer;const isServerRendering = () => { if (_isServer === undefined) { /* istanbul ignore if */ if (!inBrowser && !inWeex && typeof global !== 'undefined') { // detect presence of vue-server-renderer and avoid
// Webpack shimming the process
_isServer = global['process'] && global['process'].env.VUE_ENV === 'server'; } else { _isServer = false; } } return _isServer};
// detect devtools
const devtools = inBrowser && window.__VUE_DEVTOOLS_GLOBAL_HOOK__;
/* istanbul ignore next */function isNative (Ctor) { return typeof Ctor === 'function' && /native code/.test(Ctor.toString())}
const hasSymbol = typeof Symbol !== 'undefined' && isNative(Symbol) && typeof Reflect !== 'undefined' && isNative(Reflect.ownKeys);
let _Set;/* istanbul ignore if */ // $flow-disable-line
if (typeof Set !== 'undefined' && isNative(Set)) { // use native Set when available.
_Set = Set;} else { // a non-standard Set polyfill that only works with primitive keys.
_Set = class Set { constructor () { this.set = Object.create(null); } has (key) { return this.set[key] === true } add (key) { this.set[key] = true; } clear () { this.set = Object.create(null); } };}
/* */
let warn = noop;let tip = noop;let generateComponentTrace = (noop); // work around flow check
let formatComponentName = (noop);
{ const hasConsole = typeof console !== 'undefined'; const classifyRE = /(?:^|[-_])(\w)/g; const classify = str => str .replace(classifyRE, c => c.toUpperCase()) .replace(/[-_]/g, '');
warn = (msg, vm) => { const trace = vm ? generateComponentTrace(vm) : '';
if (config.warnHandler) { config.warnHandler.call(null, msg, vm, trace); } else if (hasConsole && (!config.silent)) { console.error(`[Vue warn]: ${msg}${trace}`); } };
tip = (msg, vm) => { if (hasConsole && (!config.silent)) { console.warn(`[Vue tip]: ${msg}` + ( vm ? generateComponentTrace(vm) : '' )); } };
formatComponentName = (vm, includeFile) => { if (vm.$root === vm) { return '<Root>' } const options = typeof vm === 'function' && vm.cid != null ? vm.options : vm._isVue ? vm.$options || vm.constructor.options : vm; let name = options.name || options._componentTag; const file = options.__file; if (!name && file) { const match = file.match(/([^/\\]+)\.vue$/); name = match && match[1]; }
return ( (name ? `<${classify(name)}>` : `<Anonymous>`) + (file && includeFile !== false ? ` at ${file}` : '') ) };
const repeat = (str, n) => { let res = ''; while (n) { if (n % 2 === 1) res += str; if (n > 1) str += str; n >>= 1; } return res };
generateComponentTrace = vm => { if (vm._isVue && vm.$parent) { const tree = []; let currentRecursiveSequence = 0; while (vm) { if (tree.length > 0) { const last = tree[tree.length - 1]; if (last.constructor === vm.constructor) { currentRecursiveSequence++; vm = vm.$parent; continue } else if (currentRecursiveSequence > 0) { tree[tree.length - 1] = [last, currentRecursiveSequence]; currentRecursiveSequence = 0; } } tree.push(vm); vm = vm.$parent; } return '\n\nfound in\n\n' + tree .map((vm, i) => `${ i === 0 ? '---> ' : repeat(' ', 5 + i * 2) }${ Array.isArray(vm) ? `${formatComponentName(vm[0])}... (${vm[1]} recursive calls)` : formatComponentName(vm) }`)
.join('\n') } else { return `\n\n(found in ${formatComponentName(vm)})` } };}
/* */
let uid = 0;
/** * A dep is an observable that can have multiple * directives subscribing to it. */class Dep {
constructor () { this.id = uid++; this.subs = []; }
addSub (sub) { this.subs.push(sub); }
removeSub (sub) { remove(this.subs, sub); }
depend () { if (Dep.target) { Dep.target.addDep(this); } }
notify () { // stabilize the subscriber list first
const subs = this.subs.slice(); if (!config.async) { // subs aren't sorted in scheduler if not running async
// we need to sort them now to make sure they fire in correct
// order
subs.sort((a, b) => a.id - b.id); } for (let i = 0, l = subs.length; i < l; i++) { subs[i].update(); } }}
// The current target watcher being evaluated.
// This is globally unique because only one watcher
// can be evaluated at a time.
Dep.target = null;const targetStack = [];
function pushTarget (target) { targetStack.push(target); Dep.target = target;}
function popTarget () { targetStack.pop(); Dep.target = targetStack[targetStack.length - 1];}
/* */
class VNode { // rendered in this component's scope
// component instance
// component placeholder node
// strictly internal
// contains raw HTML? (server only)
// hoisted static node
// necessary for enter transition check
// empty comment placeholder?
// is a cloned node?
// is a v-once node?
// async component factory function
// real context vm for functional nodes
// for SSR caching
// used to store functional render context for devtools
// functional scope id support
constructor ( tag, data, children, text, elm, context, componentOptions, asyncFactory ) { this.tag = tag; this.data = data; this.children = children; this.text = text; this.elm = elm; this.ns = undefined; this.context = context; this.fnContext = undefined; this.fnOptions = undefined; this.fnScopeId = undefined; this.key = data && data.key; this.componentOptions = componentOptions; this.componentInstance = undefined; this.parent = undefined; this.raw = false; this.isStatic = false; this.isRootInsert = true; this.isComment = false; this.isCloned = false; this.isOnce = false; this.asyncFactory = asyncFactory; this.asyncMeta = undefined; this.isAsyncPlaceholder = false; }
// DEPRECATED: alias for componentInstance for backwards compat.
/* istanbul ignore next */ get child () { return this.componentInstance }}
const createEmptyVNode = (text = '') => { const node = new VNode(); node.text = text; node.isComment = true; return node};
function createTextVNode (val) { return new VNode(undefined, undefined, undefined, String(val))}
// optimized shallow clone
// used for static nodes and slot nodes because they may be reused across
// multiple renders, cloning them avoids errors when DOM manipulations rely
// on their elm reference.
function cloneVNode (vnode) { const cloned = new VNode( vnode.tag, vnode.data, // #7975
// clone children array to avoid mutating original in case of cloning
// a child.
vnode.children && vnode.children.slice(), vnode.text, vnode.elm, vnode.context, vnode.componentOptions, vnode.asyncFactory ); cloned.ns = vnode.ns; cloned.isStatic = vnode.isStatic; cloned.key = vnode.key; cloned.isComment = vnode.isComment; cloned.fnContext = vnode.fnContext; cloned.fnOptions = vnode.fnOptions; cloned.fnScopeId = vnode.fnScopeId; cloned.asyncMeta = vnode.asyncMeta; cloned.isCloned = true; return cloned}
/* * not type checking this file because flow doesn't play well with * dynamically accessing methods on Array prototype */
const arrayProto = Array.prototype;const arrayMethods = Object.create(arrayProto);
const methodsToPatch = [ 'push', 'pop', 'shift', 'unshift', 'splice', 'sort', 'reverse'];
/** * Intercept mutating methods and emit events */methodsToPatch.forEach(function (method) { // cache original method
const original = arrayProto[method]; def(arrayMethods, method, function mutator (...args) { const result = original.apply(this, args); const ob = this.__ob__; let inserted; switch (method) { case 'push': case 'unshift': inserted = args; break case 'splice': inserted = args.slice(2); break } if (inserted) ob.observeArray(inserted); // notify change
ob.dep.notify(); return result });});
/* */
const arrayKeys = Object.getOwnPropertyNames(arrayMethods);
/** * In some cases we may want to disable observation inside a component's * update computation. */let shouldObserve = true;
function toggleObserving (value) { shouldObserve = value;}
/** * Observer class that is attached to each observed * object. Once attached, the observer converts the target * object's property keys into getter/setters that * collect dependencies and dispatch updates. */class Observer { // number of vms that have this object as root $data
constructor (value) { this.value = value; this.dep = new Dep(); this.vmCount = 0; def(value, '__ob__', this); if (Array.isArray(value)) { if (hasProto) { protoAugment(value, arrayMethods); } else { copyAugment(value, arrayMethods, arrayKeys); } this.observeArray(value); } else { this.walk(value); } }
/** * Walk through all properties and convert them into * getter/setters. This method should only be called when * value type is Object. */ walk (obj) { const keys = Object.keys(obj); for (let i = 0; i < keys.length; i++) { defineReactive$$1(obj, keys[i]); } }
/** * Observe a list of Array items. */ observeArray (items) { for (let i = 0, l = items.length; i < l; i++) { observe(items[i]); } }}
// helpers
/** * Augment a target Object or Array by intercepting * the prototype chain using __proto__ */function protoAugment (target, src) { /* eslint-disable no-proto */ target.__proto__ = src; /* eslint-enable no-proto */}
/** * Augment a target Object or Array by defining * hidden properties. *//* istanbul ignore next */function copyAugment (target, src, keys) { for (let i = 0, l = keys.length; i < l; i++) { const key = keys[i]; def(target, key, src[key]); }}
/** * Attempt to create an observer instance for a value, * returns the new observer if successfully observed, * or the existing observer if the value already has one. */function observe (value, asRootData) { if (!isObject(value) || value instanceof VNode) { return } let ob; if (hasOwn(value, '__ob__') && value.__ob__ instanceof Observer) { ob = value.__ob__; } else if ( shouldObserve && !isServerRendering() && (Array.isArray(value) || isPlainObject(value)) && Object.isExtensible(value) && !value._isVue ) { ob = new Observer(value); } if (asRootData && ob) { ob.vmCount++; } return ob}
/** * Define a reactive property on an Object. */function defineReactive$$1 ( obj, key, val, customSetter, shallow) { const dep = new Dep();
const property = Object.getOwnPropertyDescriptor(obj, key); if (property && property.configurable === false) { return }
// cater for pre-defined getter/setters
const getter = property && property.get; const setter = property && property.set; if ((!getter || setter) && arguments.length === 2) { val = obj[key]; }
let childOb = !shallow && observe(val); Object.defineProperty(obj, key, { enumerable: true, configurable: true, get: function reactiveGetter () { const value = getter ? getter.call(obj) : val; if (Dep.target) { dep.depend(); if (childOb) { childOb.dep.depend(); if (Array.isArray(value)) { dependArray(value); } } } return value }, set: function reactiveSetter (newVal) { const value = getter ? getter.call(obj) : val; /* eslint-disable no-self-compare */ if (newVal === value || (newVal !== newVal && value !== value)) { return } /* eslint-enable no-self-compare */ if (customSetter) { customSetter(); } // #7981: for accessor properties without setter
if (getter && !setter) return if (setter) { setter.call(obj, newVal); } else { val = newVal; } childOb = !shallow && 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. */function set (target, key, val) { if (isUndef(target) || isPrimitive(target) ) { warn(`Cannot set reactive property on undefined, null, or primitive value: ${(target)}`); } if (Array.isArray(target) && isValidArrayIndex(key)) { target.length = Math.max(target.length, key); target.splice(key, 1, val); return val } if (key in target && !(key in Object.prototype)) { target[key] = val; return val } const ob = (target).__ob__; if (target._isVue || (ob && ob.vmCount)) { warn( 'Avoid adding reactive properties to a Vue instance or its root $data ' + 'at runtime - declare it upfront in the data option.' ); return val } if (!ob) { target[key] = val; return val } defineReactive$$1(ob.value, key, val); ob.dep.notify(); return val}
/** * Delete a property and trigger change if necessary. */function del (target, key) { if (isUndef(target) || isPrimitive(target) ) { warn(`Cannot delete reactive property on undefined, null, or primitive value: ${(target)}`); } if (Array.isArray(target) && isValidArrayIndex(key)) { target.splice(key, 1); return } const ob = (target).__ob__; if (target._isVue || (ob && ob.vmCount)) { warn( 'Avoid deleting properties on a Vue instance or its root $data ' + '- just set it to null.' ); return } if (!hasOwn(target, key)) { return } delete target[key]; if (!ob) { return } ob.dep.notify();}
/** * Collect dependencies on array elements when the array is touched, since * we cannot intercept array element access like property getters. */function dependArray (value) { for (let e, i = 0, l = value.length; i < l; i++) { e = value[i]; e && e.__ob__ && e.__ob__.dep.depend(); if (Array.isArray(e)) { dependArray(e); } }}
/* */
/** * Option overwriting strategies are functions that handle * how to merge a parent option value and a child option * value into the final value. */const strats = config.optionMergeStrategies;
/** * Options with restrictions */{ strats.el = strats.propsData = function (parent, child, vm, key) { if (!vm) { warn( `option "${key}" can only be used during instance ` + 'creation with the `new` keyword.' ); } return defaultStrat(parent, child) };}
/** * Helper that recursively merges two data objects together. */function mergeData (to, from) { if (!from) return to let key, toVal, fromVal;
const keys = hasSymbol ? Reflect.ownKeys(from) : Object.keys(from);
for (let i = 0; i < keys.length; i++) { key = keys[i]; // in case the object is already observed...
if (key === '__ob__') continue toVal = to[key]; fromVal = from[key]; if (!hasOwn(to, key)) { set(to, key, fromVal); } else if ( toVal !== fromVal && isPlainObject(toVal) && isPlainObject(fromVal) ) { mergeData(toVal, fromVal); } } return to}
/** * Data */function mergeDataOrFn ( parentVal, childVal, vm) { if (!vm) { // in a Vue.extend merge, both should be functions
if (!childVal) { 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( typeof childVal === 'function' ? childVal.call(this, this) : childVal, typeof parentVal === 'function' ? parentVal.call(this, this) : parentVal ) } } else { return function mergedInstanceDataFn () { // instance merge
const instanceData = typeof childVal === 'function' ? childVal.call(vm, vm) : childVal; const defaultData = typeof parentVal === 'function' ? parentVal.call(vm, vm) : parentVal; if (instanceData) { return mergeData(instanceData, defaultData) } else { return defaultData } } }}
strats.data = function ( parentVal, childVal, vm) { if (!vm) { if (childVal && typeof childVal !== 'function') { warn( 'The "data" option should be a function ' + 'that returns a per-instance value in component ' + 'definitions.', vm );
return parentVal } return mergeDataOrFn(parentVal, childVal) }
return mergeDataOrFn(parentVal, childVal, vm)};
/** * Hooks and props are merged as arrays. */function mergeHook ( parentVal, childVal) { const res = childVal ? parentVal ? parentVal.concat(childVal) : Array.isArray(childVal) ? childVal : [childVal] : parentVal; return res ? dedupeHooks(res) : res}
function dedupeHooks (hooks) { const res = []; for (let i = 0; i < hooks.length; i++) { if (res.indexOf(hooks[i]) === -1) { res.push(hooks[i]); } } return res}
LIFECYCLE_HOOKS.forEach(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, vm, key) { const res = Object.create(parentVal || null); if (childVal) { assertObjectType(key, childVal, vm); return extend(res, childVal) } else { return res }}
ASSET_TYPES.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, vm, key) { // work around Firefox's Object.prototype.watch...
if (parentVal === nativeWatch) parentVal = undefined; if (childVal === nativeWatch) childVal = undefined; /* istanbul ignore if */ if (!childVal) return Object.create(parentVal || null) { assertObjectType(key, childVal, vm); } if (!parentVal) return childVal const ret = {}; extend(ret, parentVal); for (const key in childVal) { let parent = ret[key]; const child = childVal[key]; if (parent && !Array.isArray(parent)) { parent = [parent]; } ret[key] = parent ? parent.concat(child) : Array.isArray(child) ? child : [child]; } return ret};
/** * Other object hashes. */strats.props =strats.methods =strats.inject =strats.computed = function ( parentVal, childVal, vm, key) { if (childVal && "development" !== 'production') { assertObjectType(key, childVal, vm); } if (!parentVal) return childVal const ret = Object.create(null); extend(ret, parentVal); if (childVal) extend(ret, childVal); return ret};strats.provide = mergeDataOrFn;
/** * Default strategy. */const defaultStrat = function (parentVal, childVal) { return childVal === undefined ? parentVal : childVal};
/** * Validate component names */function checkComponents (options) { for (const key in options.components) { validateComponentName(key); }}
function validateComponentName (name) { if (!new RegExp(`^[a-zA-Z][\\-\\.0-9_${unicodeRegExp.source}]*$`).test(name)) { warn( 'Invalid component name: "' + name + '". Component names ' + 'should conform to valid custom element name in html5 specification.' ); } if (isBuiltInTag(name) || config.isReservedTag(name)) { warn( 'Do not use built-in or reserved HTML elements as component ' + 'id: ' + name ); }}
/** * Ensure all props option syntax are normalized into the * Object-based format. */function normalizeProps (options, vm) { const props = options.props; if (!props) return const res = {}; let i, val, name; if (Array.isArray(props)) { i = props.length; while (i--) { val = props[i]; if (typeof val === 'string') { name = camelize(val); res[name] = { type: null }; } else { warn('props must be strings when using array syntax.'); } } } else if (isPlainObject(props)) { for (const key in props) { val = props[key]; name = camelize(key); res[name] = isPlainObject(val) ? val : { type: val }; } } else { warn( `Invalid value for option "props": expected an Array or an Object, ` + `but got ${toRawType(props)}.`, vm ); } options.props = res;}
/** * Normalize all injections into Object-based format */function normalizeInject (options, vm) { const inject = options.inject; if (!inject) return const normalized = options.inject = {}; if (Array.isArray(inject)) { for (let i = 0; i < inject.length; i++) { normalized[inject[i]] = { from: inject[i] }; } } else if (isPlainObject(inject)) { for (const key in inject) { const val = inject[key]; normalized[key] = isPlainObject(val) ? extend({ from: key }, val) : { from: val }; } } else { warn( `Invalid value for option "inject": expected an Array or an Object, ` + `but got ${toRawType(inject)}.`, vm ); }}
/** * Normalize raw function directives into object format. */function normalizeDirectives (options) { const dirs = options.directives; if (dirs) { for (const key in dirs) { const def$$1 = dirs[key]; if (typeof def$$1 === 'function') { dirs[key] = { bind: def$$1, update: def$$1 }; } } }}
function assertObjectType (name, value, vm) { if (!isPlainObject(value)) { warn( `Invalid value for option "${name}": expected an Object, ` + `but got ${toRawType(value)}.`, vm ); }}
/** * Merge two option objects into a new one. * Core utility used in both instantiation and inheritance. */function mergeOptions ( parent, child, vm) { { checkComponents(child); }
if (typeof child === 'function') { child = child.options; }
normalizeProps(child, vm); normalizeInject(child, vm); normalizeDirectives(child);
// Apply extends and mixins on the child options,
// but only if it is a raw options object that isn't
// the result of another mergeOptions call.
// Only merged options has the _base property.
if (!child._base) { if (child.extends) { parent = mergeOptions(parent, child.extends, vm); } if (child.mixins) { for (let i = 0, l = child.mixins.length; i < l; i++) { parent = mergeOptions(parent, child.mixins[i], vm); } } }
const options = {}; let key; for (key in parent) { mergeField(key); } for (key in child) { if (!hasOwn(parent, key)) { mergeField(key); } } function mergeField (key) { const 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. */function resolveAsset ( options, type, id, warnMissing) { /* istanbul ignore if */ if (typeof id !== 'string') { return } const assets = options[type]; // check local registration variations first
if (hasOwn(assets, id)) return assets[id] const camelizedId = camelize(id); if (hasOwn(assets, camelizedId)) return assets[camelizedId] const PascalCaseId = capitalize(camelizedId); if (hasOwn(assets, PascalCaseId)) return assets[PascalCaseId] // fallback to prototype chain
const res = assets[id] || assets[camelizedId] || assets[PascalCaseId]; if (warnMissing && !res) { warn( 'Failed to resolve ' + type.slice(0, -1) + ': ' + id, options ); } return res}
/* */
function validateProp ( key, propOptions, propsData, vm) { const prop = propOptions[key]; const absent = !hasOwn(propsData, key); let value = propsData[key]; // boolean casting
const booleanIndex = getTypeIndex(Boolean, prop.type); if (booleanIndex > -1) { if (absent && !hasOwn(prop, 'default')) { value = false; } else if (value === '' || value === hyphenate(key)) { // only cast empty string / same name to boolean if
// boolean has higher priority
const stringIndex = getTypeIndex(String, prop.type); if (stringIndex < 0 || booleanIndex < stringIndex) { value = true; } } } // check default value
if (value === undefined) { value = getPropDefaultValue(vm, prop, key); // since the default value is a fresh copy,
// make sure to observe it.
const prevShouldObserve = shouldObserve; toggleObserving(true); observe(value); toggleObserving(prevShouldObserve); } { assertProp(prop, key, value, vm, absent); } return value}
/** * Get the default value of a prop. */function getPropDefaultValue (vm, prop, key) { // no default, return undefined
if (!hasOwn(prop, 'default')) { return undefined } const def = prop.default; // warn against non-factory defaults for Object & Array
if (isObject(def)) { warn( 'Invalid default value for prop "' + key + '": ' + 'Props with type Object/Array must use a factory function ' + 'to return the default value.', vm ); } // the raw prop value was also undefined from previous render,
// return previous default value to avoid unnecessary watcher trigger
if (vm && vm.$options.propsData && vm.$options.propsData[key] === undefined && vm._props[key] !== undefined ) { return vm._props[key] } // call factory function for non-Function types
// a value is Function if its prototype is function even across different execution context
return typeof def === 'function' && getType(prop.type) !== 'Function' ? def.call(vm) : def}
/** * Assert whether a prop is valid. */function assertProp ( prop, name, value, vm, absent) { if (prop.required && absent) { warn( 'Missing required prop: "' + name + '"', vm ); return } if (value == null && !prop.required) { return } let type = prop.type; let valid = !type || type === true; const expectedTypes = []; if (type) { if (!Array.isArray(type)) { type = [type]; } for (let i = 0; i < type.length && !valid; i++) { const assertedType = assertType(value, type[i], vm); expectedTypes.push(assertedType.expectedType || ''); valid = assertedType.valid; } }
const haveExpectedTypes = expectedTypes.some(t => t); if (!valid && haveExpectedTypes) { warn( getInvalidTypeMessage(name, value, expectedTypes), vm ); return } const validator = prop.validator; if (validator) { if (!validator(value)) { warn( 'Invalid prop: custom validator check failed for prop "' + name + '".', vm ); } }}
const simpleCheckRE = /^(String|Number|Boolean|Function|Symbol|BigInt)$/;
function assertType (value, type, vm) { let valid; const expectedType = getType(type); if (simpleCheckRE.test(expectedType)) { const t = typeof value; valid = t === expectedType.toLowerCase(); // for primitive wrapper objects
if (!valid && t === 'object') { valid = value instanceof type; } } else if (expectedType === 'Object') { valid = isPlainObject(value); } else if (expectedType === 'Array') { valid = Array.isArray(value); } else { try { valid = value instanceof type; } catch (e) { warn('Invalid prop type: "' + String(type) + '" is not a constructor', vm); valid = false; } } return { valid, expectedType }}
const functionTypeCheckRE = /^\s*function (\w+)/;
/** * Use function string name to check built-in types, * because a simple equality check will fail when running * across different vms / iframes. */function getType (fn) { const match = fn && fn.toString().match(functionTypeCheckRE); return match ? match[1] : ''}
function isSameType (a, b) { return getType(a) === getType(b)}
function getTypeIndex (type, expectedTypes) { if (!Array.isArray(expectedTypes)) { return isSameType(expectedTypes, type) ? 0 : -1 } for (let i = 0, len = expectedTypes.length; i < len; i++) { if (isSameType(expectedTypes[i], type)) { return i } } return -1}
function getInvalidTypeMessage (name, value, expectedTypes) { let message = `Invalid prop: type check failed for prop "${name}".` + ` Expected ${expectedTypes.map(capitalize).join(', ')}`; const expectedType = expectedTypes[0]; const receivedType = toRawType(value); // check if we need to specify expected value
if ( expectedTypes.length === 1 && isExplicable(expectedType) && isExplicable(typeof value) && !isBoolean(expectedType, receivedType) ) { message += ` with value ${styleValue(value, expectedType)}`; } message += `, got ${receivedType} `; // check if we need to specify received value
if (isExplicable(receivedType)) { message += `with value ${styleValue(value, receivedType)}.`; } return message}
function styleValue (value, type) { if (type === 'String') { return `"${value}"` } else if (type === 'Number') { return `${Number(value)}` } else { return `${value}` }}
const EXPLICABLE_TYPES = ['string', 'number', 'boolean'];function isExplicable (value) { return EXPLICABLE_TYPES.some(elem => value.toLowerCase() === elem)}
function isBoolean (...args) { return args.some(elem => elem.toLowerCase() === 'boolean')}
/* */
function handleError (err, vm, info) { // Deactivate deps tracking while processing error handler to avoid possible infinite rendering.
// See: https://github.com/vuejs/vuex/issues/1505
pushTarget(); try { if (vm) { let cur = vm; while ((cur = cur.$parent)) { const hooks = cur.$options.errorCaptured; if (hooks) { for (let i = 0; i < hooks.length; i++) { try { const capture = hooks[i].call(cur, err, vm, info) === false; if (capture) return } catch (e) { globalHandleError(e, cur, 'errorCaptured hook'); } } } } } globalHandleError(err, vm, info); } finally { popTarget(); }}
function invokeWithErrorHandling ( handler, context, args, vm, info) { let res; try { res = args ? handler.apply(context, args) : handler.call(context); if (res && !res._isVue && isPromise(res) && !res._handled) { res.catch(e => handleError(e, vm, info + ` (Promise/async)`)); // issue #9511
// avoid catch triggering multiple times when nested calls
res._handled = true; } } catch (e) { handleError(e, vm, info); } return res}
function globalHandleError (err, vm, info) { if (config.errorHandler) { try { return config.errorHandler.call(null, err, vm, info) } catch (e) { // if the user intentionally throws the original error in the handler,
// do not log it twice
if (e !== err) { logError(e, null, 'config.errorHandler'); } } } logError(err, vm, info);}
function logError (err, vm, info) { { warn(`Error in ${info}: "${err.toString()}"`, vm); } /* istanbul ignore else */ if ((inBrowser || inWeex) && typeof console !== 'undefined') { console.error(err); } else { throw err }}
/* */
let isUsingMicroTask = false;
const callbacks = [];let pending = false;
function flushCallbacks () { pending = false; const copies = callbacks.slice(0); callbacks.length = 0; for (let i = 0; i < copies.length; i++) { copies[i](); }}
// Here we have async deferring wrappers using microtasks.
// In 2.5 we used (macro) tasks (in combination with microtasks).
// However, it has subtle problems when state is changed right before repaint
// (e.g. #6813, out-in transitions).
// Also, using (macro) tasks in event handler would cause some weird behaviors
// that cannot be circumvented (e.g. #7109, #7153, #7546, #7834, #8109).
// So we now use microtasks everywhere, again.
// A major drawback of this tradeoff is that there are some scenarios
// where microtasks have too high a priority and fire in between supposedly
// sequential events (e.g. #4521, #6690, which have workarounds)
// or even between bubbling of the same event (#6566).
let timerFunc;
// The nextTick behavior leverages the microtask queue, which can be accessed
// via either native Promise.then or MutationObserver.
// MutationObserver has wider support, however it is seriously bugged in
// UIWebView in iOS >= 9.3.3 when triggered in touch event handlers. It
// completely stops working after triggering a few times... so, if native
// Promise is available, we will use it:
/* istanbul ignore next, $flow-disable-line */if (typeof Promise !== 'undefined' && isNative(Promise)) { const p = Promise.resolve(); timerFunc = () => { p.then(flushCallbacks); // In problematic UIWebViews, Promise.then doesn't completely break, but
// it can get stuck in a weird state where callbacks are pushed into the
// microtask queue but the queue isn't being flushed, until the browser
// needs to do some other work, e.g. handle a timer. Therefore we can
// "force" the microtask queue to be flushed by adding an empty timer.
if (isIOS) setTimeout(noop); }; isUsingMicroTask = true;} else if (!isIE && typeof MutationObserver !== 'undefined' && ( isNative(MutationObserver) || // PhantomJS and iOS 7.x
MutationObserver.toString() === '[object MutationObserverConstructor]')) { // Use MutationObserver where native Promise is not available,
// e.g. PhantomJS, iOS7, Android 4.4
// (#6466 MutationObserver is unreliable in IE11)
let counter = 1; const observer = new MutationObserver(flushCallbacks); const textNode = document.createTextNode(String(counter)); observer.observe(textNode, { characterData: true }); timerFunc = () => { counter = (counter + 1) % 2; textNode.data = String(counter); }; isUsingMicroTask = true;} else if (typeof setImmediate !== 'undefined' && isNative(setImmediate)) { // Fallback to setImmediate.
// Technically it leverages the (macro) task queue,
// but it is still a better choice than setTimeout.
timerFunc = () => { setImmediate(flushCallbacks); };} else { // Fallback to setTimeout.
timerFunc = () => { setTimeout(flushCallbacks, 0); };}
function nextTick (cb, ctx) { let _resolve; callbacks.push(() => { if (cb) { try { cb.call(ctx); } catch (e) { handleError(e, ctx, 'nextTick'); } } else if (_resolve) { _resolve(ctx); } }); if (!pending) { pending = true; timerFunc(); } // $flow-disable-line
if (!cb && typeof Promise !== 'undefined') { return new Promise(resolve => { _resolve = resolve; }) }}
/* */
let mark;let measure;
{ const perf = inBrowser && window.performance; /* istanbul ignore if */ if ( perf && perf.mark && perf.measure && perf.clearMarks && perf.clearMeasures ) { mark = tag => perf.mark(tag); measure = (name, startTag, endTag) => { perf.measure(name, startTag, endTag); perf.clearMarks(startTag); perf.clearMarks(endTag); // perf.clearMeasures(name)
}; }}
/* not type checking this file because flow doesn't play well with Proxy */
let initProxy;
{ const 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,BigInt,' + 'require' // for Webpack/Browserify
);
const warnNonPresent = (target, key) => { warn( `Property or method "${key}" is not defined on the instance but ` + 'referenced during render. Make sure that this property is reactive, ' + 'either in the data option, or for class-based components, by ' + 'initializing the property. ' + 'See: https://vuejs.org/v2/guide/reactivity.html#Declaring-Reactive-Properties.', target ); };
const warnReservedPrefix = (target, key) => { warn( `Property "${key}" must be accessed with "$data.${key}" because ` + 'properties starting with "$" or "_" are not proxied in the Vue instance to ' + 'prevent conflicts with Vue internals. ' + 'See: https://vuejs.org/v2/api/#data', target ); };
const hasProxy = typeof Proxy !== 'undefined' && isNative(Proxy);
if (hasProxy) { const isBuiltInModifier = makeMap('stop,prevent,self,ctrl,shift,alt,meta,exact'); config.keyCodes = new Proxy(config.keyCodes, { set (target, key, value) { if (isBuiltInModifier(key)) { warn(`Avoid overwriting built-in modifier in config.keyCodes: .${key}`); return false } else { target[key] = value; return true } } }); }
const hasHandler = { has (target, key) { const has = key in target; const isAllowed = allowedGlobals(key) || (typeof key === 'string' && key.charAt(0) === '_' && !(key in target.$data)); if (!has && !isAllowed) { if (key in target.$data) warnReservedPrefix(target, key); else warnNonPresent(target, key); } return has || !isAllowed } };
const getHandler = { get (target, key) { if (typeof key === 'string' && !(key in target)) { if (key in target.$data) warnReservedPrefix(target, key); else warnNonPresent(target, key); } return target[key] } };
initProxy = function initProxy (vm) { if (hasProxy) { // determine which proxy handler to use
const options = vm.$options; const handlers = options.render && options.render._withStripped ? getHandler : hasHandler; vm._renderProxy = new Proxy(vm, handlers); } else { vm._renderProxy = vm; } };}
/* */
const seenObjects = new _Set();
/** * Recursively traverse an object to evoke all converted * getters, so that every nested property inside the object * is collected as a "deep" dependency. */function traverse (val) { _traverse(val, seenObjects); seenObjects.clear();}
function _traverse (val, seen) { let i, keys; const isA = Array.isArray(val); if ((!isA && !isObject(val)) || Object.isFrozen(val) || val instanceof VNode) { return } if (val.__ob__) { const depId = val.__ob__.dep.id; if (seen.has(depId)) { return } seen.add(depId); } if (isA) { i = val.length; while (i--) _traverse(val[i], seen); } else { keys = Object.keys(val); i = keys.length; while (i--) _traverse(val[keys[i]], seen); }}
/* */
const normalizeEvent = cached((name) => { const passive = name.charAt(0) === '&'; name = passive ? name.slice(1) : name; const once$$1 = name.charAt(0) === '~'; // Prefixed last, checked first
name = once$$1 ? name.slice(1) : name; const capture = name.charAt(0) === '!'; name = capture ? name.slice(1) : name; return { name, once: once$$1, capture, passive }});
function createFnInvoker (fns, vm) { function invoker () { const fns = invoker.fns; if (Array.isArray(fns)) { const cloned = fns.slice(); for (let i = 0; i < cloned.length; i++) { invokeWithErrorHandling(cloned[i], null, arguments, vm, `v-on handler`); } } else { // return handler return value for single handlers
return invokeWithErrorHandling(fns, null, arguments, vm, `v-on handler`) } } invoker.fns = fns; return invoker}
function updateListeners ( on, oldOn, add, remove$$1, createOnceHandler, vm) { let name, def$$1, cur, old, event; for (name in on) { def$$1 = cur = on[name]; old = oldOn[name]; event = normalizeEvent(name); if (isUndef(cur)) { warn( `Invalid handler for event "${event.name}": got ` + String(cur), vm ); } else if (isUndef(old)) { if (isUndef(cur.fns)) { cur = on[name] = createFnInvoker(cur, vm); } if (isTrue(event.once)) { cur = on[name] = createOnceHandler(event.name, cur, event.capture); } add(event.name, cur, event.capture, event.passive, event.params); } else if (cur !== old) { old.fns = cur; on[name] = old; } } for (name in oldOn) { if (isUndef(on[name])) { event = normalizeEvent(name); remove$$1(event.name, oldOn[name], event.capture); } }}
/* */
function mergeVNodeHook (def, hookKey, hook) { if (def instanceof VNode) { def = def.data.hook || (def.data.hook = {}); } let invoker; const oldHook = def[hookKey];
function wrappedHook () { hook.apply(this, arguments); // important: remove merged hook to ensure it's called only once
// and prevent memory leak
remove(invoker.fns, wrappedHook); }
if (isUndef(oldHook)) { // no existing hook
invoker = createFnInvoker([wrappedHook]); } else { /* istanbul ignore if */ if (isDef(oldHook.fns) && isTrue(oldHook.merged)) { // already a merged invoker
invoker = oldHook; invoker.fns.push(wrappedHook); } else { // existing plain hook
invoker = createFnInvoker([oldHook, wrappedHook]); } }
invoker.merged = true; def[hookKey] = invoker;}
/* */
function extractPropsFromVNodeData ( data, Ctor, tag) { // we are only extracting raw values here.
// validation and default values are handled in the child
// component itself.
const propOptions = Ctor.options.props; if (isUndef(propOptions)) { return } const res = {}; const { attrs, props } = data; if (isDef(attrs) || isDef(props)) { for (const key in propOptions) { const altKey = hyphenate(key); { const keyInLowerCase = key.toLowerCase(); if ( key !== keyInLowerCase && attrs && hasOwn(attrs, keyInLowerCase) ) { tip( `Prop "${keyInLowerCase}" is passed to component ` + `${formatComponentName(tag || Ctor)}, but the declared prop name is` + ` "${key}". ` + `Note that HTML attributes are case-insensitive and camelCased ` + `props need to use their kebab-case equivalents when using in-DOM ` + `templates. You should probably use "${altKey}" instead of "${key}".` ); } } checkProp(res, props, key, altKey, true) || checkProp(res, attrs, key, altKey, false); } } return res}
function checkProp ( res, hash, key, altKey, preserve) { if (isDef(hash)) { if (hasOwn(hash, key)) { res[key] = hash[key]; if (!preserve) { delete hash[key]; } return true } else if (hasOwn(hash, altKey)) { res[key] = hash[altKey]; if (!preserve) { delete hash[altKey]; } return true } } return false}
/* */
// The template compiler attempts to minimize the need for normalization by
// statically analyzing the template at compile time.
//
// For plain HTML markup, normalization can be completely skipped because the
// generated render function is guaranteed to return Array<VNode>. There are
// two cases where extra normalization is needed:
// 1. When the children contains components - because a functional component
// may return an Array instead of a single root. In this case, just a simple
// normalization is needed - if any child is an Array, we flatten the whole
// thing with Array.prototype.concat. It is guaranteed to be only 1-level deep
// because functional components already normalize their own children.
function simpleNormalizeChildren (children) { for (let i = 0; i < children.length; i++) { if (Array.isArray(children[i])) { return Array.prototype.concat.apply([], children) } } return children}
// 2. When the children contains constructs that always generated nested Arrays,
// e.g. <template>, <slot>, v-for, or when the children is provided by user
// with hand-written render functions / JSX. In such cases a full normalization
// is needed to cater to all possible types of children values.
function normalizeChildren (children) { return isPrimitive(children) ? [createTextVNode(children)] : Array.isArray(children) ? normalizeArrayChildren(children) : undefined}
function isTextNode (node) { return isDef(node) && isDef(node.text) && isFalse(node.isComment)}
function normalizeArrayChildren (children, nestedIndex) { const res = []; let i, c, lastIndex, last; for (i = 0; i < children.length; i++) { c = children[i]; if (isUndef(c) || typeof c === 'boolean') continue lastIndex = res.length - 1; last = res[lastIndex]; // nested
if (Array.isArray(c)) { if (c.length > 0) { c = normalizeArrayChildren(c, `${nestedIndex || ''}_${i}`); // merge adjacent text nodes
if (isTextNode(c[0]) && isTextNode(last)) { res[lastIndex] = createTextVNode(last.text + (c[0]).text); c.shift(); } res.push.apply(res, c); } } else if (isPrimitive(c)) { if (isTextNode(last)) { // merge adjacent text nodes
// this is necessary for SSR hydration because text nodes are
// essentially merged when rendered to HTML strings
res[lastIndex] = createTextVNode(last.text + c); } else if (c !== '') { // convert primitive to vnode
res.push(createTextVNode(c)); } } else { if (isTextNode(c) && isTextNode(last)) { // merge adjacent text nodes
res[lastIndex] = createTextVNode(last.text + c.text); } else { // default key for nested array children (likely generated by v-for)
if (isTrue(children._isVList) && isDef(c.tag) && isUndef(c.key) && isDef(nestedIndex)) { c.key = `__vlist${nestedIndex}_${i}__`; } res.push(c); } } } return res}
/* */
function initProvide (vm) { const provide = vm.$options.provide; if (provide) { vm._provided = typeof provide === 'function' ? provide.call(vm) : provide; }}
function initInjections (vm) { const result = resolveInject(vm.$options.inject, vm); if (result) { toggleObserving(false); Object.keys(result).forEach(key => { /* istanbul ignore else */ { defineReactive$$1(vm, key, result[key], () => { warn( `Avoid mutating an injected value directly since the changes will be ` + `overwritten whenever the provided component re-renders. ` + `injection being mutated: "${key}"`, vm ); }); } }); toggleObserving(true); }}
function resolveInject (inject, vm) { if (inject) { // inject is :any because flow is not smart enough to figure out cached
const result = Object.create(null); const keys = hasSymbol ? Reflect.ownKeys(inject) : Object.keys(inject);
for (let i = 0; i < keys.length; i++) { const key = keys[i]; // #6574 in case the inject object is observed...
if (key === '__ob__') continue const provideKey = inject[key].from; let source = vm; while (source) { if (source._provided && hasOwn(source._provided, provideKey)) { result[key] = source._provided[provideKey]; break } source = source.$parent; } if (!source) { if ('default' in inject[key]) { const provideDefault = inject[key].default; result[key] = typeof provideDefault === 'function' ? provideDefault.call(vm) : provideDefault; } else { warn(`Injection "${key}" not found`, vm); } } } return result }}
/* */
/** * Runtime helper for resolving raw children VNodes into a slot object. */function resolveSlots ( children, context) { if (!children || !children.length) { return {} } const slots = {}; for (let i = 0, l = children.length; i < l; i++) { const child = children[i]; const data = child.data; // remove slot attribute if the node is resolved as a Vue slot node
if (data && data.attrs && data.attrs.slot) { delete data.attrs.slot; } // named slots should only be respected if the vnode was rendered in the
// same context.
if ((child.context === context || child.fnContext === context) && data && data.slot != null ) { const name = data.slot; const slot = (slots[name] || (slots[name] = [])); if (child.tag === 'template') { slot.push.apply(slot, child.children || []); } else { slot.push(child); } } else { (slots.default || (slots.default = [])).push(child); } } // ignore slots that contains only whitespace
for (const name in slots) { if (slots[name].every(isWhitespace)) { delete slots[name]; } } return slots}
function isWhitespace (node) { return (node.isComment && !node.asyncFactory) || node.text === ' '}
/* */
function isAsyncPlaceholder (node) { return node.isComment && node.asyncFactory}
/* */
function normalizeScopedSlots ( slots, normalSlots, prevSlots) { let res; const hasNormalSlots = Object.keys(normalSlots).length > 0; const isStable = slots ? !!slots.$stable : !hasNormalSlots; const key = slots && slots.$key; if (!slots) { res = {}; } else if (slots._normalized) { // fast path 1: child component re-render only, parent did not change
return slots._normalized } else if ( isStable && prevSlots && prevSlots !== emptyObject && key === prevSlots.$key && !hasNormalSlots && !prevSlots.$hasNormal ) { // fast path 2: stable scoped slots w/ no normal slots to proxy,
// only need to normalize once
return prevSlots } else { res = {}; for (const key in slots) { if (slots[key] && key[0] !== '$') { res[key] = normalizeScopedSlot(normalSlots, key, slots[key]); } } } // expose normal slots on scopedSlots
for (const key in normalSlots) { if (!(key in res)) { res[key] = proxyNormalSlot(normalSlots, key); } } // avoriaz seems to mock a non-extensible $scopedSlots object
// and when that is passed down this would cause an error
if (slots && Object.isExtensible(slots)) { (slots)._normalized = res; } def(res, '$stable', isStable); def(res, '$key', key); def(res, '$hasNormal', hasNormalSlots); return res}
function normalizeScopedSlot(normalSlots, key, fn) { const normalized = function () { let res = arguments.length ? fn.apply(null, arguments) : fn({}); res = res && typeof res === 'object' && !Array.isArray(res) ? [res] // single vnode
: normalizeChildren(res); let vnode = res && res[0]; return res && ( !vnode || (res.length === 1 && vnode.isComment && !isAsyncPlaceholder(vnode)) // #9658, #10391
) ? undefined : res }; // this is a slot using the new v-slot syntax without scope. although it is
// compiled as a scoped slot, render fn users would expect it to be present
// on this.$slots because the usage is semantically a normal slot.
if (fn.proxy) { Object.defineProperty(normalSlots, key, { get: normalized, enumerable: true, configurable: true }); } return normalized}
function proxyNormalSlot(slots, key) { return () => slots[key]}
/* */
/** * Runtime helper for rendering v-for lists. */function renderList ( val, render) { let ret, i, l, keys, key; if (Array.isArray(val) || typeof val === 'string') { ret = new Array(val.length); for (i = 0, l = val.length; i < l; i++) { ret[i] = render(val[i], i); } } else if (typeof val === 'number') { ret = new Array(val); for (i = 0; i < val; i++) { ret[i] = render(i + 1, i); } } else if (isObject(val)) { if (hasSymbol && val[Symbol.iterator]) { ret = []; const iterator = val[Symbol.iterator](); let result = iterator.next(); while (!result.done) { ret.push(render(result.value, ret.length)); result = iterator.next(); } } else { 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], key, i); } } } if (!isDef(ret)) { ret = []; } (ret)._isVList = true; return ret}
/* */
/** * Runtime helper for rendering <slot> */function renderSlot ( name, fallbackRender, props, bindObject) { const scopedSlotFn = this.$scopedSlots[name]; let nodes; if (scopedSlotFn) { // scoped slot
props = props || {}; if (bindObject) { if (!isObject(bindObject)) { warn('slot v-bind without argument expects an Object', this); } props = extend(extend({}, bindObject), props); } nodes = scopedSlotFn(props) || (typeof fallbackRender === 'function' ? fallbackRender() : fallbackRender); } else { nodes = this.$slots[name] || (typeof fallbackRender === 'function' ? fallbackRender() : fallbackRender); }
const target = props && props.slot; if (target) { return this.$createElement('template', { slot: target }, nodes) } else { return nodes }}
/* */
/** * Runtime helper for resolving filters */function resolveFilter (id) { return resolveAsset(this.$options, 'filters', id, true) || identity}
/* */
function isKeyNotMatch (expect, actual) { if (Array.isArray(expect)) { return expect.indexOf(actual) === -1 } else { return expect !== actual }}
/** * Runtime helper for checking keyCodes from config. * exposed as Vue.prototype._k * passing in eventKeyName as last argument separately for backwards compat */function checkKeyCodes ( eventKeyCode, key, builtInKeyCode, eventKeyName, builtInKeyName) { const mappedKeyCode = config.keyCodes[key] || builtInKeyCode; if (builtInKeyName && eventKeyName && !config.keyCodes[key]) { return isKeyNotMatch(builtInKeyName, eventKeyName) } else if (mappedKeyCode) { return isKeyNotMatch(mappedKeyCode, eventKeyCode) } else if (eventKeyName) { return hyphenate(eventKeyName) !== key } return eventKeyCode === undefined}
/* */
/** * Runtime helper for merging v-bind="object" into a VNode's data. */function bindObjectProps ( data, tag, value, asProp, isSync) { if (value) { if (!isObject(value)) { warn( 'v-bind without argument expects an Object or Array value', this ); } else { if (Array.isArray(value)) { value = toObject(value); } let hash; for (const key in value) { if ( key === 'class' || key === 'style' || isReservedAttribute(key) ) { hash = data; } else { const type = data.attrs && data.attrs.type; hash = asProp || config.mustUseProp(tag, type, key) ? data.domProps || (data.domProps = {}) : data.attrs || (data.attrs = {}); } const camelizedKey = camelize(key); const hyphenatedKey = hyphenate(key); if (!(camelizedKey in hash) && !(hyphenatedKey in hash)) { hash[key] = value[key];
if (isSync) { const on = data.on || (data.on = {}); on[`update:${key}`] = function ($event) { value[key] = $event; }; } } } } } return data}
/* */
/** * Runtime helper for rendering static trees. */function renderStatic ( index, isInFor) { const cached = this._staticTrees || (this._staticTrees = []); let tree = cached[index]; // if has already-rendered static tree and not inside v-for,
// we can reuse the same tree.
if (tree && !isInFor) { return tree } // otherwise, render a fresh tree.
tree = cached[index] = this.$options.staticRenderFns[index].call( this._renderProxy, null, this // for render fns generated for functional component templates
); markStatic(tree, `__static__${index}`, false); return tree}
/** * Runtime helper for v-once. * Effectively it means marking the node as static with a unique key. */function markOnce ( tree, index, key) { markStatic(tree, `__once__${index}${key ? `_${key}` : ``}`, true); return tree}
function markStatic ( tree, key, isOnce) { if (Array.isArray(tree)) { for (let i = 0; i < tree.length; i++) { if (tree[i] && typeof tree[i] !== 'string') { markStaticNode(tree[i], `${key}_${i}`, isOnce); } } } else { markStaticNode(tree, key, isOnce); }}
function markStaticNode (node, key, isOnce) { node.isStatic = true; node.key = key; node.isOnce = isOnce;}
/* */
function bindObjectListeners (data, value) { if (value) { if (!isPlainObject(value)) { warn( 'v-on without argument expects an Object value', this ); } else { const on = data.on = data.on ? extend({}, data.on) : {}; for (const key in value) { const existing = on[key]; const ours = value[key]; on[key] = existing ? [].concat(existing, ours) : ours; } } } return data}
/* */
function resolveScopedSlots ( fns, // see flow/vnode
res, // the following are added in 2.6
hasDynamicKeys, contentHashKey) { res = res || { $stable: !hasDynamicKeys }; for (let i = 0; i < fns.length; i++) { const slot = fns[i]; if (Array.isArray(slot)) { resolveScopedSlots(slot, res, hasDynamicKeys); } else if (slot) { // marker for reverse proxying v-slot without scope on this.$slots
if (slot.proxy) { slot.fn.proxy = true; } res[slot.key] = slot.fn; } } if (contentHashKey) { (res).$key = contentHashKey; } return res}
/* */
function bindDynamicKeys (baseObj, values) { for (let i = 0; i < values.length; i += 2) { const key = values[i]; if (typeof key === 'string' && key) { baseObj[values[i]] = values[i + 1]; } else if (key !== '' && key !== null) { // null is a special value for explicitly removing a binding
warn( `Invalid value for dynamic directive argument (expected string or null): ${key}`, this ); } } return baseObj}
// helper to dynamically append modifier runtime markers to event names.
// ensure only append when value is already string, otherwise it will be cast
// to string and cause the type check to miss.
function prependModifier (value, symbol) { return typeof value === 'string' ? symbol + value : value}
/* */
function installRenderHelpers (target) { target._o = markOnce; target._n = toNumber; target._s = toString; target._l = renderList; target._t = renderSlot; target._q = looseEqual; target._i = looseIndexOf; target._m = renderStatic; target._f = resolveFilter; target._k = checkKeyCodes; target._b = bindObjectProps; target._v = createTextVNode; target._e = createEmptyVNode; target._u = resolveScopedSlots; target._g = bindObjectListeners; target._d = bindDynamicKeys; target._p = prependModifier;}
/* */
function FunctionalRenderContext ( data, props, children, parent, Ctor) { const options = Ctor.options; // ensure the createElement function in functional components
// gets a unique context - this is necessary for correct named slot check
let contextVm; if (hasOwn(parent, '_uid')) { contextVm = Object.create(parent); // $flow-disable-line
contextVm._original = parent; } else { // the context vm passed in is a functional context as well.
// in this case we want to make sure we are able to get a hold to the
// real context instance.
contextVm = parent; // $flow-disable-line
parent = parent._original; } const isCompiled = isTrue(options._compiled); const needNormalization = !isCompiled;
this.data = data; this.props = props; this.children = children; this.parent = parent; this.listeners = data.on || emptyObject; this.injections = resolveInject(options.inject, parent); this.slots = () => { if (!this.$slots) { normalizeScopedSlots( data.scopedSlots, this.$slots = resolveSlots(children, parent) ); } return this.$slots };
Object.defineProperty(this, 'scopedSlots', ({ enumerable: true, get () { return normalizeScopedSlots(data.scopedSlots, this.slots()) } }));
// support for compiled functional template
if (isCompiled) { // exposing $options for renderStatic()
this.$options = options; // pre-resolve slots for renderSlot()
this.$slots = this.slots(); this.$scopedSlots = normalizeScopedSlots(data.scopedSlots, this.$slots); }
if (options._scopeId) { this._c = (a, b, c, d) => { const vnode = createElement(contextVm, a, b, c, d, needNormalization); if (vnode && !Array.isArray(vnode)) { vnode.fnScopeId = options._scopeId; vnode.fnContext = parent; } return vnode }; } else { this._c = (a, b, c, d) => createElement(contextVm, a, b, c, d, needNormalization); }}
installRenderHelpers(FunctionalRenderContext.prototype);
function createFunctionalComponent ( Ctor, propsData, data, contextVm, children) { const options = Ctor.options; const props = {}; const propOptions = options.props; if (isDef(propOptions)) { for (const key in propOptions) { props[key] = validateProp(key, propOptions, propsData || emptyObject); } } else { if (isDef(data.attrs)) mergeProps(props, data.attrs); if (isDef(data.props)) mergeProps(props, data.props); }
const renderContext = new FunctionalRenderContext( data, props, children, contextVm, Ctor );
const vnode = options.render.call(null, renderContext._c, renderContext);
if (vnode instanceof VNode) { return cloneAndMarkFunctionalResult(vnode, data, renderContext.parent, options, renderContext) } else if (Array.isArray(vnode)) { const vnodes = normalizeChildren(vnode) || []; const res = new Array(vnodes.length); for (let i = 0; i < vnodes.length; i++) { res[i] = cloneAndMarkFunctionalResult(vnodes[i], data, renderContext.parent, options, renderContext); } return res }}
function cloneAndMarkFunctionalResult (vnode, data, contextVm, options, renderContext) { // #7817 clone node before setting fnContext, otherwise if the node is reused
// (e.g. it was from a cached normal slot) the fnContext causes named slots
// that should not be matched to match.
const clone = cloneVNode(vnode); clone.fnContext = contextVm; clone.fnOptions = options; { (clone.devtoolsMeta = clone.devtoolsMeta || {}).renderContext = renderContext; } if (data.slot) { (clone.data || (clone.data = {})).slot = data.slot; } return clone}
function mergeProps (to, from) { for (const key in from) { to[camelize(key)] = from[key]; }}
/* */
/* */
/* */
/* */
// inline hooks to be invoked on component VNodes during patch
const componentVNodeHooks = { init (vnode, hydrating) { if ( vnode.componentInstance && !vnode.componentInstance._isDestroyed && vnode.data.keepAlive ) { // kept-alive components, treat as a patch
const mountedNode = vnode; // work around flow
componentVNodeHooks.prepatch(mountedNode, mountedNode); } else { const child = vnode.componentInstance = createComponentInstanceForVnode( vnode, activeInstance ); child.$mount(hydrating ? vnode.elm : undefined, hydrating); } },
prepatch (oldVnode, vnode) { const options = vnode.componentOptions; const child = vnode.componentInstance = oldVnode.componentInstance; updateChildComponent( child, options.propsData, // updated props
options.listeners, // updated listeners
vnode, // new parent vnode
options.children // new children
); },
insert (vnode) { const { context, componentInstance } = vnode; if (!componentInstance._isMounted) { componentInstance._isMounted = true; callHook(componentInstance, 'mounted'); } if (vnode.data.keepAlive) { if (context._isMounted) { // vue-router#1212
// During updates, a kept-alive component's child components may
// change, so directly walking the tree here may call activated hooks
// on incorrect children. Instead we push them into a queue which will
// be processed after the whole patch process ended.
queueActivatedComponent(componentInstance); } else { activateChildComponent(componentInstance, true /* direct */); } } },
destroy (vnode) { const { componentInstance } = vnode; if (!componentInstance._isDestroyed) { if (!vnode.data.keepAlive) { componentInstance.$destroy(); } else { deactivateChildComponent(componentInstance, true /* direct */); } } }};
const hooksToMerge = Object.keys(componentVNodeHooks);
function createComponent ( Ctor, data, context, children, tag) { if (isUndef(Ctor)) { return }
const baseCtor = context.$options._base;
// plain options object: turn it into a constructor
if (isObject(Ctor)) { Ctor = baseCtor.extend(Ctor); }
// if at this stage it's not a constructor or an async component factory,
// reject.
if (typeof Ctor !== 'function') { { warn(`Invalid Component definition: ${String(Ctor)}`, context); } return }
// async component
let asyncFactory; if (isUndef(Ctor.cid)) { asyncFactory = Ctor; Ctor = resolveAsyncComponent(asyncFactory, baseCtor); if (Ctor === undefined) { // return a placeholder node for async component, which is rendered
// as a comment node but preserves all the raw information for the node.
// the information will be used for async server-rendering and hydration.
return createAsyncPlaceholder( asyncFactory, data, context, children, tag ) } }
data = data || {};
// resolve constructor options in case global mixins are applied after
// component constructor creation
resolveConstructorOptions(Ctor);
// transform component v-model data into props & events
if (isDef(data.model)) { transformModel(Ctor.options, data); }
// extract props
const propsData = extractPropsFromVNodeData(data, Ctor, tag);
// functional component
if (isTrue(Ctor.options.functional)) { return createFunctionalComponent(Ctor, propsData, data, context, children) }
// extract listeners, since these needs to be treated as
// child component listeners instead of DOM listeners
const listeners = data.on; // replace with listeners with .native modifier
// so it gets processed during parent component patch.
data.on = data.nativeOn;
if (isTrue(Ctor.options.abstract)) { // abstract components do not keep anything
// other than props & listeners & slot
// work around flow
const slot = data.slot; data = {}; if (slot) { data.slot = slot; } }
// install component management hooks onto the placeholder node
installComponentHooks(data);
// return a placeholder vnode
const name = Ctor.options.name || tag; const vnode = new VNode( `vue-component-${Ctor.cid}${name ? `-${name}` : ''}`, data, undefined, undefined, undefined, context, { Ctor, propsData, listeners, tag, children }, asyncFactory );
return vnode}
function createComponentInstanceForVnode ( // we know it's MountedComponentVNode but flow doesn't
vnode, // activeInstance in lifecycle state
parent) { const options = { _isComponent: true, _parentVnode: vnode, parent }; // check inline-template render functions
const inlineTemplate = vnode.data.inlineTemplate; if (isDef(inlineTemplate)) { options.render = inlineTemplate.render; options.staticRenderFns = inlineTemplate.staticRenderFns; } return new vnode.componentOptions.Ctor(options)}
function installComponentHooks (data) { const hooks = data.hook || (data.hook = {}); for (let i = 0; i < hooksToMerge.length; i++) { const key = hooksToMerge[i]; const existing = hooks[key]; const toMerge = componentVNodeHooks[key]; if (existing !== toMerge && !(existing && existing._merged)) { hooks[key] = existing ? mergeHook$1(toMerge, existing) : toMerge; } }}
function mergeHook$1 (f1, f2) { const merged = (a, b) => { // flow complains about extra args which is why we use any
f1(a, b); f2(a, b); }; merged._merged = true; return merged}
// transform component v-model info (value and callback) into
// prop and event handler respectively.
function transformModel (options, data) { const prop = (options.model && options.model.prop) || 'value'; const event = (options.model && options.model.event) || 'input' ;(data.attrs || (data.attrs = {}))[prop] = data.model.value; const on = data.on || (data.on = {}); const existing = on[event]; const callback = data.model.callback; if (isDef(existing)) { if ( Array.isArray(existing) ? existing.indexOf(callback) === -1 : existing !== callback ) { on[event] = [callback].concat(existing); } } else { on[event] = callback; }}
/* */
const SIMPLE_NORMALIZE = 1;const ALWAYS_NORMALIZE = 2;
// wrapper function for providing a more flexible interface
// without getting yelled at by flow
function createElement ( context, tag, data, children, normalizationType, alwaysNormalize) { if (Array.isArray(data) || isPrimitive(data)) { normalizationType = children; children = data; data = undefined; } if (isTrue(alwaysNormalize)) { normalizationType = ALWAYS_NORMALIZE; } return _createElement(context, tag, data, children, normalizationType)}
function _createElement ( context, tag, data, children, normalizationType) { if (isDef(data) && isDef((data).__ob__)) { warn( `Avoid using observed data object as vnode data: ${JSON.stringify(data)}\n` + 'Always create fresh vnode data objects in each render!', context ); return createEmptyVNode() } // object syntax in v-bind
if (isDef(data) && isDef(data.is)) { tag = data.is; } if (!tag) { // in case of component :is set to falsy value
return createEmptyVNode() } // warn against non-primitive key
if (isDef(data) && isDef(data.key) && !isPrimitive(data.key) ) { { warn( 'Avoid using non-primitive value as key, ' + 'use string/number value instead.', context ); } } // support single function children as default scoped slot
if (Array.isArray(children) && typeof children[0] === 'function' ) { data = data || {}; data.scopedSlots = { default: children[0] }; children.length = 0; } if (normalizationType === ALWAYS_NORMALIZE) { children = normalizeChildren(children); } else if (normalizationType === SIMPLE_NORMALIZE) { children = simpleNormalizeChildren(children); } let vnode, ns; if (typeof tag === 'string') { let Ctor; ns = (context.$vnode && context.$vnode.ns) || config.getTagNamespace(tag); if (config.isReservedTag(tag)) { // platform built-in elements
if (isDef(data) && isDef(data.nativeOn) && data.tag !== 'component') { warn( `The .native modifier for v-on is only valid on components but it was used on <${tag}>.`, context ); } vnode = new VNode( config.parsePlatformTagName(tag), data, children, undefined, undefined, context ); } else if ((!data || !data.pre) && isDef(Ctor = resolveAsset(context.$options, 'components', tag))) { // component
vnode = createComponent(Ctor, data, context, children, tag); } else { // unknown or unlisted namespaced elements
// check at runtime because it may get assigned a namespace when its
// parent normalizes children
vnode = new VNode( tag, data, children, undefined, undefined, context ); } } else { // direct component options / constructor
vnode = createComponent(tag, data, context, children); } if (Array.isArray(vnode)) { return vnode } else if (isDef(vnode)) { if (isDef(ns)) applyNS(vnode, ns); if (isDef(data)) registerDeepBindings(data); return vnode } else { return createEmptyVNode() }}
function applyNS (vnode, ns, force) { vnode.ns = ns; if (vnode.tag === 'foreignObject') { // use default namespace inside foreignObject
ns = undefined; force = true; } if (isDef(vnode.children)) { for (let i = 0, l = vnode.children.length; i < l; i++) { const child = vnode.children[i]; if (isDef(child.tag) && ( isUndef(child.ns) || (isTrue(force) && child.tag !== 'svg'))) { applyNS(child, ns, force); } } }}
// ref #5318
// necessary to ensure parent re-render when deep bindings like :style and
// :class are used on slot nodes
function registerDeepBindings (data) { if (isObject(data.style)) { traverse(data.style); } if (isObject(data.class)) { traverse(data.class); }}
/* */
function initRender (vm) { vm._vnode = null; // the root of the child tree
vm._staticTrees = null; // v-once cached trees
const options = vm.$options; const parentVnode = vm.$vnode = options._parentVnode; // the placeholder node in parent tree
const renderContext = parentVnode && parentVnode.context; vm.$slots = resolveSlots(options._renderChildren, renderContext); vm.$scopedSlots = emptyObject; // bind the createElement fn to this instance
// so that we get proper render context inside it.
// args order: tag, data, children, normalizationType, alwaysNormalize
// internal version is used by render functions compiled from templates
vm._c = (a, b, c, d) => createElement(vm, a, b, c, d, false); // normalization is always applied for the public version, used in
// user-written render functions.
vm.$createElement = (a, b, c, d) => createElement(vm, a, b, c, d, true);
// $attrs & $listeners are exposed for easier HOC creation.
// they need to be reactive so that HOCs using them are always updated
const parentData = parentVnode && parentVnode.data;
/* istanbul ignore else */ { defineReactive$$1(vm, '$attrs', parentData && parentData.attrs || emptyObject, () => { !isUpdatingChildComponent && warn(`$attrs is readonly.`, vm); }, true); defineReactive$$1(vm, '$listeners', options._parentListeners || emptyObject, () => { !isUpdatingChildComponent && warn(`$listeners is readonly.`, vm); }, true); }}
let currentRenderingInstance = null;
function renderMixin (Vue) { // install runtime convenience helpers
installRenderHelpers(Vue.prototype);
Vue.prototype.$nextTick = function (fn) { return nextTick(fn, this) };
Vue.prototype._render = function () { const vm = this; const { render, _parentVnode } = vm.$options;
if (_parentVnode) { vm.$scopedSlots = normalizeScopedSlots( _parentVnode.data.scopedSlots, vm.$slots, vm.$scopedSlots ); }
// set parent vnode. this allows render functions to have access
// to the data on the placeholder node.
vm.$vnode = _parentVnode; // render self
let vnode; try { // There's no need to maintain a stack because all render fns are called
// separately from one another. Nested component's render fns are called
// when parent component is patched.
currentRenderingInstance = vm; vnode = render.call(vm._renderProxy, vm.$createElement); } catch (e) { handleError(e, vm, `render`); // return error render result,
// or previous vnode to prevent render error causing blank component
/* istanbul ignore else */ if (vm.$options.renderError) { try { vnode = vm.$options.renderError.call(vm._renderProxy, vm.$createElement, e); } catch (e) { handleError(e, vm, `renderError`); vnode = vm._vnode; } } else { vnode = vm._vnode; } } finally { currentRenderingInstance = null; } // if the returned array contains only a single node, allow it
if (Array.isArray(vnode) && vnode.length === 1) { vnode = vnode[0]; } // return empty vnode in case the render function errored out
if (!(vnode instanceof VNode)) { if (Array.isArray(vnode)) { warn( 'Multiple root nodes returned from render function. Render function ' + 'should return a single root node.', vm ); } vnode = createEmptyVNode(); } // set parent
vnode.parent = _parentVnode; return vnode };}
/* */
function ensureCtor (comp, base) { if ( comp.__esModule || (hasSymbol && comp[Symbol.toStringTag] === 'Module') ) { comp = comp.default; } return isObject(comp) ? base.extend(comp) : comp}
function createAsyncPlaceholder ( factory, data, context, children, tag) { const node = createEmptyVNode(); node.asyncFactory = factory; node.asyncMeta = { data, context, children, tag }; return node}
function resolveAsyncComponent ( factory, baseCtor) { if (isTrue(factory.error) && isDef(factory.errorComp)) { return factory.errorComp }
if (isDef(factory.resolved)) { return factory.resolved }
const owner = currentRenderingInstance; if (owner && isDef(factory.owners) && factory.owners.indexOf(owner) === -1) { // already pending
factory.owners.push(owner); }
if (isTrue(factory.loading) && isDef(factory.loadingComp)) { return factory.loadingComp }
if (owner && !isDef(factory.owners)) { const owners = factory.owners = [owner]; let sync = true; let timerLoading = null; let timerTimeout = null
;(owner).$on('hook:destroyed', () => remove(owners, owner));
const forceRender = (renderCompleted) => { for (let i = 0, l = owners.length; i < l; i++) { (owners[i]).$forceUpdate(); }
if (renderCompleted) { owners.length = 0; if (timerLoading !== null) { clearTimeout(timerLoading); timerLoading = null; } if (timerTimeout !== null) { clearTimeout(timerTimeout); timerTimeout = null; } } };
const resolve = once((res) => { // cache resolved
factory.resolved = ensureCtor(res, baseCtor); // invoke callbacks only if this is not a synchronous resolve
// (async resolves are shimmed as synchronous during SSR)
if (!sync) { forceRender(true); } else { owners.length = 0; } });
const reject = once(reason => { warn( `Failed to resolve async component: ${String(factory)}` + (reason ? `\nReason: ${reason}` : '') ); if (isDef(factory.errorComp)) { factory.error = true; forceRender(true); } });
const res = factory(resolve, reject);
if (isObject(res)) { if (isPromise(res)) { // () => Promise
if (isUndef(factory.resolved)) { res.then(resolve, reject); } } else if (isPromise(res.component)) { res.component.then(resolve, reject);
if (isDef(res.error)) { factory.errorComp = ensureCtor(res.error, baseCtor); }
if (isDef(res.loading)) { factory.loadingComp = ensureCtor(res.loading, baseCtor); if (res.delay === 0) { factory.loading = true; } else { timerLoading = setTimeout(() => { timerLoading = null; if (isUndef(factory.resolved) && isUndef(factory.error)) { factory.loading = true; forceRender(false); } }, res.delay || 200); } }
if (isDef(res.timeout)) { timerTimeout = setTimeout(() => { timerTimeout = null; if (isUndef(factory.resolved)) { reject( `timeout (${res.timeout}ms)` ); } }, res.timeout); } } }
sync = false; // return in case resolved synchronously
return factory.loading ? factory.loadingComp : factory.resolved }}
/* */
function getFirstComponentChild (children) { if (Array.isArray(children)) { for (let i = 0; i < children.length; i++) { const c = children[i]; if (isDef(c) && (isDef(c.componentOptions) || isAsyncPlaceholder(c))) { return c } } }}
/* */
/* */
function initEvents (vm) { vm._events = Object.create(null); vm._hasHookEvent = false; // init parent attached events
const listeners = vm.$options._parentListeners; if (listeners) { updateComponentListeners(vm, listeners); }}
let target;
function add (event, fn) { target.$on(event, fn);}
function remove$1 (event, fn) { target.$off(event, fn);}
function createOnceHandler (event, fn) { const _target = target; return function onceHandler () { const res = fn.apply(null, arguments); if (res !== null) { _target.$off(event, onceHandler); } }}
function updateComponentListeners ( vm, listeners, oldListeners) { target = vm; updateListeners(listeners, oldListeners || {}, add, remove$1, createOnceHandler, vm); target = undefined;}
function eventsMixin (Vue) { const hookRE = /^hook:/; Vue.prototype.$on = function (event, fn) { const vm = this; if (Array.isArray(event)) { for (let i = 0, l = event.length; i < l; i++) { vm.$on(event[i], fn); } } else { (vm._events[event] || (vm._events[event] = [])).push(fn); // optimize hook:event cost by using a boolean flag marked at registration
// instead of a hash lookup
if (hookRE.test(event)) { vm._hasHookEvent = true; } } return vm };
Vue.prototype.$once = function (event, fn) { const vm = this; function on () { vm.$off(event, on); fn.apply(vm, arguments); } on.fn = fn; vm.$on(event, on); return vm };
Vue.prototype.$off = function (event, fn) { const vm = this; // all
if (!arguments.length) { vm._events = Object.create(null); return vm } // array of events
if (Array.isArray(event)) { for (let i = 0, l = event.length; i < l; i++) { vm.$off(event[i], fn); } return vm } // specific event
const cbs = vm._events[event]; if (!cbs) { return vm } if (!fn) { vm._events[event] = null; return vm } // specific handler
let cb; let i = cbs.length; while (i--) { cb = cbs[i]; if (cb === fn || cb.fn === fn) { cbs.splice(i, 1); break } } return vm };
Vue.prototype.$emit = function (event) { const vm = this; { const lowerCaseEvent = event.toLowerCase(); if (lowerCaseEvent !== event && vm._events[lowerCaseEvent]) { tip( `Event "${lowerCaseEvent}" is emitted in component ` + `${formatComponentName(vm)} but the handler is registered for "${event}". ` + `Note that HTML attributes are case-insensitive and you cannot use ` + `v-on to listen to camelCase events when using in-DOM templates. ` + `You should probably use "${hyphenate(event)}" instead of "${event}".` ); } } let cbs = vm._events[event]; if (cbs) { cbs = cbs.length > 1 ? toArray(cbs) : cbs; const args = toArray(arguments, 1); const info = `event handler for "${event}"`; for (let i = 0, l = cbs.length; i < l; i++) { invokeWithErrorHandling(cbs[i], vm, args, vm, info); } } return vm };}
/* */
let activeInstance = null;let isUpdatingChildComponent = false;
function setActiveInstance(vm) { const prevActiveInstance = activeInstance; activeInstance = vm; return () => { activeInstance = prevActiveInstance; }}
function initLifecycle (vm) { const options = vm.$options;
// locate first non-abstract parent
let parent = options.parent; if (parent && !options.abstract) { while (parent.$options.abstract && parent.$parent) { parent = parent.$parent; } parent.$children.push(vm); }
vm.$parent = parent; vm.$root = parent ? parent.$root : vm;
vm.$children = []; vm.$refs = {};
vm._watcher = null; vm._inactive = null; vm._directInactive = false; vm._isMounted = false; vm._isDestroyed = false; vm._isBeingDestroyed = false;}
function lifecycleMixin (Vue) { Vue.prototype._update = function (vnode, hydrating) { const vm = this; const prevEl = vm.$el; const prevVnode = vm._vnode; const restoreActiveInstance = setActiveInstance(vm); vm._vnode = vnode; // Vue.prototype.__patch__ is injected in entry points
// based on the rendering backend used.
if (!prevVnode) { // initial render
vm.$el = vm.__patch__(vm.$el, vnode, hydrating, false /* removeOnly */); } else { // updates
vm.$el = vm.__patch__(prevVnode, vnode); } restoreActiveInstance(); // update __vue__ reference
if (prevEl) { prevEl.__vue__ = null; } if (vm.$el) { vm.$el.__vue__ = vm; } // if parent is an HOC, update its $el as well
if (vm.$vnode && vm.$parent && vm.$vnode === vm.$parent._vnode) { vm.$parent.$el = vm.$el; } // updated hook is called by the scheduler to ensure that children are
// updated in a parent's updated hook.
};
Vue.prototype.$forceUpdate = function () { const vm = this; if (vm._watcher) { vm._watcher.update(); } };
Vue.prototype.$destroy = function () { const vm = this; if (vm._isBeingDestroyed) { return } callHook(vm, 'beforeDestroy'); vm._isBeingDestroyed = true; // remove self from parent
const parent = vm.$parent; if (parent && !parent._isBeingDestroyed && !vm.$options.abstract) { remove(parent.$children, vm); } // teardown watchers
if (vm._watcher) { vm._watcher.teardown(); } let i = vm._watchers.length; while (i--) { vm._watchers[i].teardown(); } // remove reference from data ob
// frozen object may not have observer.
if (vm._data.__ob__) { vm._data.__ob__.vmCount--; } // call the last hook...
vm._isDestroyed = true; // invoke destroy hooks on current rendered tree
vm.__patch__(vm._vnode, null); // fire destroyed hook
callHook(vm, 'destroyed'); // turn off all instance listeners.
vm.$off(); // remove __vue__ reference
if (vm.$el) { vm.$el.__vue__ = null; } // release circular reference (#6759)
if (vm.$vnode) { vm.$vnode.parent = null; } };}
function mountComponent ( vm, el, hydrating) { vm.$el = el; if (!vm.$options.render) { vm.$options.render = createEmptyVNode; { /* istanbul ignore if */ if ((vm.$options.template && vm.$options.template.charAt(0) !== '#') || vm.$options.el || el) { warn( 'You are using the runtime-only build of Vue where the template ' + 'compiler is not available. Either pre-compile the templates into ' + 'render functions, or use the compiler-included build.', vm ); } else { warn( 'Failed to mount component: template or render function not defined.', vm ); } } } callHook(vm, 'beforeMount');
let updateComponent; /* istanbul ignore if */ if (config.performance && mark) { updateComponent = () => { const name = vm._name; const id = vm._uid; const startTag = `vue-perf-start:${id}`; const endTag = `vue-perf-end:${id}`;
mark(startTag); const vnode = vm._render(); mark(endTag); measure(`vue ${name} render`, startTag, endTag);
mark(startTag); vm._update(vnode, hydrating); mark(endTag); measure(`vue ${name} patch`, startTag, endTag); }; } else { updateComponent = () => { vm._update(vm._render(), hydrating); }; }
// we set this to vm._watcher inside the watcher's constructor
// since the watcher's initial patch may call $forceUpdate (e.g. inside child
// component's mounted hook), which relies on vm._watcher being already defined
new Watcher(vm, updateComponent, noop, { before () { if (vm._isMounted && !vm._isDestroyed) { callHook(vm, 'beforeUpdate'); } } }, true /* isRenderWatcher */); hydrating = false;
// manually mounted instance, call mounted on self
// mounted is called for render-created child components in its inserted hook
if (vm.$vnode == null) { vm._isMounted = true; callHook(vm, 'mounted'); } return vm}
function updateChildComponent ( vm, propsData, listeners, parentVnode, renderChildren) { { isUpdatingChildComponent = true; }
// determine whether component has slot children
// we need to do this before overwriting $options._renderChildren.
// check if there are dynamic scopedSlots (hand-written or compiled but with
// dynamic slot names). Static scoped slots compiled from template has the
// "$stable" marker.
const newScopedSlots = parentVnode.data.scopedSlots; const oldScopedSlots = vm.$scopedSlots; const hasDynamicScopedSlot = !!( (newScopedSlots && !newScopedSlots.$stable) || (oldScopedSlots !== emptyObject && !oldScopedSlots.$stable) || (newScopedSlots && vm.$scopedSlots.$key !== newScopedSlots.$key) || (!newScopedSlots && vm.$scopedSlots.$key) );
// Any static slot children from the parent may have changed during parent's
// update. Dynamic scoped slots may also have changed. In such cases, a forced
// update is necessary to ensure correctness.
const needsForceUpdate = !!( renderChildren || // has new static slots
vm.$options._renderChildren || // has old static slots
hasDynamicScopedSlot );
vm.$options._parentVnode = parentVnode; vm.$vnode = parentVnode; // update vm's placeholder node without re-render
if (vm._vnode) { // update child tree's parent
vm._vnode.parent = parentVnode; } vm.$options._renderChildren = renderChildren;
// update $attrs and $listeners hash
// these are also reactive so they may trigger child update if the child
// used them during render
vm.$attrs = parentVnode.data.attrs || emptyObject; vm.$listeners = listeners || emptyObject;
// update props
if (propsData && vm.$options.props) { toggleObserving(false); const props = vm._props; const propKeys = vm.$options._propKeys || []; for (let i = 0; i < propKeys.length; i++) { const key = propKeys[i]; const propOptions = vm.$options.props; // wtf flow?
props[key] = validateProp(key, propOptions, propsData, vm); } toggleObserving(true); // keep a copy of raw propsData
vm.$options.propsData = propsData; }
// update listeners
listeners = listeners || emptyObject; const oldListeners = vm.$options._parentListeners; vm.$options._parentListeners = listeners; updateComponentListeners(vm, listeners, oldListeners);
// resolve slots + force update if has children
if (needsForceUpdate) { vm.$slots = resolveSlots(renderChildren, parentVnode.context); vm.$forceUpdate(); }
{ isUpdatingChildComponent = false; }}
function isInInactiveTree (vm) { while (vm && (vm = vm.$parent)) { if (vm._inactive) return true } return false}
function activateChildComponent (vm, direct) { if (direct) { vm._directInactive = false; if (isInInactiveTree(vm)) { return } } else if (vm._directInactive) { return } if (vm._inactive || vm._inactive === null) { vm._inactive = false; for (let i = 0; i < vm.$children.length; i++) { activateChildComponent(vm.$children[i]); } callHook(vm, 'activated'); }}
function deactivateChildComponent (vm, direct) { if (direct) { vm._directInactive = true; if (isInInactiveTree(vm)) { return } } if (!vm._inactive) { vm._inactive = true; for (let i = 0; i < vm.$children.length; i++) { deactivateChildComponent(vm.$children[i]); } callHook(vm, 'deactivated'); }}
function callHook (vm, hook) { // #7573 disable dep collection when invoking lifecycle hooks
pushTarget(); const handlers = vm.$options[hook]; const info = `${hook} hook`; if (handlers) { for (let i = 0, j = handlers.length; i < j; i++) { invokeWithErrorHandling(handlers[i], vm, null, vm, info); } } if (vm._hasHookEvent) { vm.$emit('hook:' + hook); } popTarget();}
/* */
const MAX_UPDATE_COUNT = 100;
const queue = [];const activatedChildren = [];let has = {};let circular = {};let waiting = false;let flushing = false;let index = 0;
/** * Reset the scheduler's state. */function resetSchedulerState () { index = queue.length = activatedChildren.length = 0; has = {}; { circular = {}; } waiting = flushing = false;}
// Async edge case #6566 requires saving the timestamp when event listeners are
// attached. However, calling performance.now() has a perf overhead especially
// if the page has thousands of event listeners. Instead, we take a timestamp
// every time the scheduler flushes and use that for all event listeners
// attached during that flush.
let currentFlushTimestamp = 0;
// Async edge case fix requires storing an event listener's attach timestamp.
let getNow = Date.now;
// Determine what event timestamp the browser is using. Annoyingly, the
// timestamp can either be hi-res (relative to page load) or low-res
// (relative to UNIX epoch), so in order to compare time we have to use the
// same timestamp type when saving the flush timestamp.
// All IE versions use low-res event timestamps, and have problematic clock
// implementations (#9632)
if (inBrowser && !isIE) { const performance = window.performance; if ( performance && typeof performance.now === 'function' && getNow() > document.createEvent('Event').timeStamp ) { // if the event timestamp, although evaluated AFTER the Date.now(), is
// smaller than it, it means the event is using a hi-res timestamp,
// and we need to use the hi-res version for event listener timestamps as
// well.
getNow = () => performance.now(); }}
/** * Flush both queues and run the watchers. */function flushSchedulerQueue () { currentFlushTimestamp = getNow(); flushing = true; let watcher, id;
// Sort queue before flush.
// This ensures that:
// 1. Components are updated from parent to child. (because parent is always
// created before the child)
// 2. A component's user watchers are run before its render watcher (because
// user watchers are created before the render watcher)
// 3. If a component is destroyed during a parent component's watcher run,
// its watchers can be skipped.
queue.sort((a, b) => a.id - b.id);
// do not cache length because more watchers might be pushed
// as we run existing watchers
for (index = 0; index < queue.length; index++) { watcher = queue[index]; if (watcher.before) { watcher.before(); } id = watcher.id; has[id] = null; watcher.run(); // in dev build, check and stop circular updates.
if (has[id] != null) { circular[id] = (circular[id] || 0) + 1; if (circular[id] > MAX_UPDATE_COUNT) { warn( 'You may have an infinite update loop ' + ( watcher.user ? `in watcher with expression "${watcher.expression}"` : `in a component render function.` ), watcher.vm ); break } } }
// keep copies of post queues before resetting state
const activatedQueue = activatedChildren.slice(); const updatedQueue = queue.slice();
resetSchedulerState();
// call component updated and activated hooks
callActivatedHooks(activatedQueue); callUpdatedHooks(updatedQueue);
// devtool hook
/* istanbul ignore if */ if (devtools && config.devtools) { devtools.emit('flush'); }}
function callUpdatedHooks (queue) { let i = queue.length; while (i--) { const watcher = queue[i]; const vm = watcher.vm; if (vm._watcher === watcher && vm._isMounted && !vm._isDestroyed) { callHook(vm, 'updated'); } }}
/** * Queue a kept-alive component that was activated during patch. * The queue will be processed after the entire tree has been patched. */function queueActivatedComponent (vm) { // setting _inactive to false here so that a render function can
// rely on checking whether it's in an inactive tree (e.g. router-view)
vm._inactive = false; activatedChildren.push(vm);}
function callActivatedHooks (queue) { for (let i = 0; i < queue.length; i++) { queue[i]._inactive = true; activateChildComponent(queue[i], true /* true */); }}
/** * Push a watcher into the watcher queue. * Jobs with duplicate IDs will be skipped unless it's * pushed when the queue is being flushed. */function queueWatcher (watcher) { const id = watcher.id; if (has[id] == null) { has[id] = true; if (!flushing) { queue.push(watcher); } else { // if already flushing, splice the watcher based on its id
// if already past its id, it will be run next immediately.
let i = queue.length - 1; while (i > index && queue[i].id > watcher.id) { i--; } queue.splice(i + 1, 0, watcher); } // queue the flush
if (!waiting) { waiting = true;
if (!config.async) { flushSchedulerQueue(); return } nextTick(flushSchedulerQueue); } }}
/* */
let uid$2 = 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. */class Watcher {
constructor ( vm, expOrFn, cb, options, isRenderWatcher ) { this.vm = vm; if (isRenderWatcher) { vm._watcher = this; } vm._watchers.push(this); // options
if (options) { this.deep = !!options.deep; this.user = !!options.user; this.lazy = !!options.lazy; this.sync = !!options.sync; this.before = options.before; } else { this.deep = this.user = this.lazy = this.sync = false; } this.cb = cb; this.id = ++uid$2; // uid for batching
this.active = true; this.dirty = this.lazy; // for lazy watchers
this.deps = []; this.newDeps = []; this.depIds = new _Set(); this.newDepIds = new _Set(); this.expression = expOrFn.toString(); // parse expression for getter
if (typeof expOrFn === 'function') { this.getter = expOrFn; } else { this.getter = parsePath(expOrFn); if (!this.getter) { this.getter = noop; 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(); }
/** * Evaluate the getter, and re-collect dependencies. */ get () { pushTarget(this); let value; const vm = this.vm; try { value = this.getter.call(vm, vm); } catch (e) { if (this.user) { handleError(e, vm, `getter for watcher "${this.expression}"`); } else { throw e } } finally { // "touch" every property so they are all tracked as
// dependencies for deep watching
if (this.deep) { traverse(value); } popTarget(); this.cleanupDeps(); } return value }
/** * Add a dependency to this directive. */ addDep (dep) { const 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. */ cleanupDeps () { let i = this.deps.length; while (i--) { const dep = this.deps[i]; if (!this.newDepIds.has(dep.id)) { dep.removeSub(this); } } let 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. */ update () { /* istanbul ignore else */ if (this.lazy) { this.dirty = true; } else if (this.sync) { this.run(); } else { queueWatcher(this); } }
/** * Scheduler job interface. * Will be called by the scheduler. */ run () { if (this.active) { const 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.
isObject(value) || this.deep ) { // set new value
const oldValue = this.value; this.value = value; if (this.user) { const info = `callback for watcher "${this.expression}"`; invokeWithErrorHandling(this.cb, this.vm, [value, oldValue], this.vm, info); } else { this.cb.call(this.vm, value, oldValue); } } } }
/** * Evaluate the value of the watcher. * This only gets called for lazy watchers. */ evaluate () { this.value = this.get(); this.dirty = false; }
/** * Depend on all deps collected by this watcher. */ depend () { let i = this.deps.length; while (i--) { this.deps[i].depend(); } }
/** * Remove self from all dependencies' subscriber list. */ teardown () { 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.
if (!this.vm._isBeingDestroyed) { remove(this.vm._watchers, this); } let i = this.deps.length; while (i--) { this.deps[i].removeSub(this); } this.active = false; } }}
/* */
const sharedPropertyDefinition = { enumerable: true, configurable: true, get: noop, set: noop};
function proxy (target, sourceKey, key) { sharedPropertyDefinition.get = function proxyGetter () { return this[sourceKey][key] }; sharedPropertyDefinition.set = function proxySetter (val) { this[sourceKey][key] = val; }; Object.defineProperty(target, key, sharedPropertyDefinition);}
function initState (vm) { vm._watchers = []; const opts = vm.$options; if (opts.props) initProps(vm, opts.props); if (opts.methods) initMethods(vm, opts.methods); if (opts.data) { initData(vm); } else { observe(vm._data = {}, true /* asRootData */); } if (opts.computed) initComputed(vm, opts.computed); if (opts.watch && opts.watch !== nativeWatch) { initWatch(vm, opts.watch); }}
function initProps (vm, propsOptions) { const propsData = vm.$options.propsData || {}; const props = vm._props = {}; // cache prop keys so that future props updates can iterate using Array
// instead of dynamic object key enumeration.
const keys = vm.$options._propKeys = []; const isRoot = !vm.$parent; // root instance props should be converted
if (!isRoot) { toggleObserving(false); } for (const key in propsOptions) { keys.push(key); const value = validateProp(key, propsOptions, propsData, vm); /* istanbul ignore else */ { const hyphenatedKey = hyphenate(key); if (isReservedAttribute(hyphenatedKey) || config.isReservedAttr(hyphenatedKey)) { warn( `"${hyphenatedKey}" is a reserved attribute and cannot be used as component prop.`, vm ); } defineReactive$$1(props, key, value, () => { if (!isRoot && !isUpdatingChildComponent) { warn( `Avoid mutating a prop directly since the value will be ` + `overwritten whenever the parent component re-renders. ` + `Instead, use a data or computed property based on the prop's ` + `value. Prop being mutated: "${key}"`, vm ); } }); } // static props are already proxied on the component's prototype
// during Vue.extend(). We only need to proxy props defined at
// instantiation here.
if (!(key in vm)) { proxy(vm, `_props`, key); } } toggleObserving(true);}
function initData (vm) { let data = vm.$options.data; data = vm._data = typeof data === 'function' ? getData(data, vm) : data || {}; if (!isPlainObject(data)) { data = {}; warn( 'data functions should return an object:\n' + 'https://vuejs.org/v2/guide/components.html#data-Must-Be-a-Function', vm ); } // proxy data on instance
const keys = Object.keys(data); const props = vm.$options.props; const methods = vm.$options.methods; let i = keys.length; while (i--) { const key = keys[i]; { if (methods && hasOwn(methods, key)) { warn( `Method "${key}" has already been defined as a data property.`, vm ); } } if (props && hasOwn(props, key)) { warn( `The data property "${key}" is already declared as a prop. ` + `Use prop default value instead.`, vm ); } else if (!isReserved(key)) { proxy(vm, `_data`, key); } } // observe data
observe(data, true /* asRootData */);}
function getData (data, vm) { // #7573 disable dep collection when invoking data getters
pushTarget(); try { return data.call(vm, vm) } catch (e) { handleError(e, vm, `data()`); return {} } finally { popTarget(); }}
const computedWatcherOptions = { lazy: true };
function initComputed (vm, computed) { // $flow-disable-line
const watchers = vm._computedWatchers = Object.create(null); // computed properties are just getters during SSR
const isSSR = isServerRendering();
for (const key in computed) { const userDef = computed[key]; const getter = typeof userDef === 'function' ? userDef : userDef.get; if (getter == null) { warn( `Getter is missing for computed property "${key}".`, vm ); }
if (!isSSR) { // create internal watcher for the computed property.
watchers[key] = new Watcher( vm, getter || noop, noop, computedWatcherOptions ); }
// component-defined computed properties are already defined on the
// component prototype. We only need to define computed properties defined
// at instantiation here.
if (!(key in vm)) { defineComputed(vm, key, userDef); } else { if (key in vm.$data) { warn(`The computed property "${key}" is already defined in data.`, vm); } else if (vm.$options.props && key in vm.$options.props) { warn(`The computed property "${key}" is already defined as a prop.`, vm); } else if (vm.$options.methods && key in vm.$options.methods) { warn(`The computed property "${key}" is already defined as a method.`, vm); } } }}
function defineComputed ( target, key, userDef) { const shouldCache = !isServerRendering(); if (typeof userDef === 'function') { sharedPropertyDefinition.get = shouldCache ? createComputedGetter(key) : createGetterInvoker(userDef); sharedPropertyDefinition.set = noop; } else { sharedPropertyDefinition.get = userDef.get ? shouldCache && userDef.cache !== false ? createComputedGetter(key) : createGetterInvoker(userDef.get) : noop; sharedPropertyDefinition.set = userDef.set || noop; } if (sharedPropertyDefinition.set === noop) { sharedPropertyDefinition.set = function () { warn( `Computed property "${key}" was assigned to but it has no setter.`, this ); }; } Object.defineProperty(target, key, sharedPropertyDefinition);}
function createComputedGetter (key) { return function computedGetter () { const watcher = this._computedWatchers && this._computedWatchers[key]; if (watcher) { if (watcher.dirty) { watcher.evaluate(); } if (Dep.target) { watcher.depend(); } return watcher.value } }}
function createGetterInvoker(fn) { return function computedGetter () { return fn.call(this, this) }}
function initMethods (vm, methods) { const props = vm.$options.props; for (const key in methods) { { if (typeof methods[key] !== 'function') { warn( `Method "${key}" has type "${typeof methods[key]}" in the component definition. ` + `Did you reference the function correctly?`, vm ); } if (props && hasOwn(props, key)) { warn( `Method "${key}" has already been defined as a prop.`, vm ); } if ((key in vm) && isReserved(key)) { warn( `Method "${key}" conflicts with an existing Vue instance method. ` + `Avoid defining component methods that start with _ or $.` ); } } vm[key] = typeof methods[key] !== 'function' ? noop : bind(methods[key], vm); }}
function initWatch (vm, watch) { for (const key in watch) { const handler = watch[key]; if (Array.isArray(handler)) { for (let i = 0; i < handler.length; i++) { createWatcher(vm, key, handler[i]); } } else { createWatcher(vm, key, handler); } }}
function createWatcher ( vm, expOrFn, handler, options) { if (isPlainObject(handler)) { options = handler; handler = handler.handler; } if (typeof handler === 'string') { handler = vm[handler]; } return vm.$watch(expOrFn, handler, options)}
function stateMixin (Vue) { // flow somehow has problems with directly declared definition object
// when using Object.defineProperty, so we have to procedurally build up
// the object here.
const dataDef = {}; dataDef.get = function () { return this._data }; const propsDef = {}; propsDef.get = function () { return this._props }; { dataDef.set = function () { warn( 'Avoid replacing instance root $data. ' + 'Use nested data properties instead.', this ); }; propsDef.set = function () { warn(`$props is readonly.`, this); }; } Object.defineProperty(Vue.prototype, '$data', dataDef); Object.defineProperty(Vue.prototype, '$props', propsDef);
Vue.prototype.$set = set; Vue.prototype.$delete = del;
Vue.prototype.$watch = function ( expOrFn, cb, options ) { const vm = this; if (isPlainObject(cb)) { return createWatcher(vm, expOrFn, cb, options) } options = options || {}; options.user = true; const watcher = new Watcher(vm, expOrFn, cb, options); if (options.immediate) { const info = `callback for immediate watcher "${watcher.expression}"`; pushTarget(); invokeWithErrorHandling(cb, vm, [watcher.value], vm, info); popTarget(); } return function unwatchFn () { watcher.teardown(); } };}
/* */
let uid$3 = 0;
function initMixin (Vue) { Vue.prototype._init = function (options) { const vm = this; // a uid
vm._uid = uid$3++;
let startTag, endTag; /* istanbul ignore if */ if (config.performance && mark) { startTag = `vue-perf-start:${vm._uid}`; endTag = `vue-perf-end:${vm._uid}`; mark(startTag); }
// a flag to avoid this being observed
vm._isVue = true; // merge options
if (options && options._isComponent) { // optimize internal component instantiation
// since dynamic options merging is pretty slow, and none of the
// internal component options needs special treatment.
initInternalComponent(vm, options); } else { vm.$options = mergeOptions( resolveConstructorOptions(vm.constructor), options || {}, vm ); } /* istanbul ignore else */ { initProxy(vm); } // expose real self
vm._self = vm; initLifecycle(vm); initEvents(vm); initRender(vm); callHook(vm, 'beforeCreate'); initInjections(vm); // resolve injections before data/props
initState(vm); initProvide(vm); // resolve provide after data/props
callHook(vm, 'created');
/* istanbul ignore if */ if (config.performance && mark) { vm._name = formatComponentName(vm, false); mark(endTag); measure(`vue ${vm._name} init`, startTag, endTag); }
if (vm.$options.el) { vm.$mount(vm.$options.el); } };}
function initInternalComponent (vm, options) { const opts = vm.$options = Object.create(vm.constructor.options); // doing this because it's faster than dynamic enumeration.
const parentVnode = options._parentVnode; opts.parent = options.parent; opts._parentVnode = parentVnode;
const vnodeComponentOptions = parentVnode.componentOptions; opts.propsData = vnodeComponentOptions.propsData; opts._parentListeners = vnodeComponentOptions.listeners; opts._renderChildren = vnodeComponentOptions.children; opts._componentTag = vnodeComponentOptions.tag;
if (options.render) { opts.render = options.render; opts.staticRenderFns = options.staticRenderFns; }}
function resolveConstructorOptions (Ctor) { let options = Ctor.options; if (Ctor.super) { const superOptions = resolveConstructorOptions(Ctor.super); const cachedSuperOptions = Ctor.superOptions; if (superOptions !== cachedSuperOptions) { // super option changed,
// need to resolve new options.
Ctor.superOptions = superOptions; // check if there are any late-modified/attached options (#4976)
const modifiedOptions = resolveModifiedOptions(Ctor); // update base extend options
if (modifiedOptions) { extend(Ctor.extendOptions, modifiedOptions); } options = Ctor.options = mergeOptions(superOptions, Ctor.extendOptions); if (options.name) { options.components[options.name] = Ctor; } } } return options}
function resolveModifiedOptions (Ctor) { let modified; const latest = Ctor.options; const sealed = Ctor.sealedOptions; for (const key in latest) { if (latest[key] !== sealed[key]) { if (!modified) modified = {}; modified[key] = latest[key]; } } return modified}
function Vue (options) { if (!(this instanceof Vue) ) { warn('Vue is a constructor and should be called with the `new` keyword'); } this._init(options);}
initMixin(Vue);stateMixin(Vue);eventsMixin(Vue);lifecycleMixin(Vue);renderMixin(Vue);
/* */
function initUse (Vue) { Vue.use = function (plugin) { const installedPlugins = (this._installedPlugins || (this._installedPlugins = [])); if (installedPlugins.indexOf(plugin) > -1) { return this }
// additional parameters
const args = toArray(arguments, 1); args.unshift(this); if (typeof plugin.install === 'function') { plugin.install.apply(plugin, args); } else if (typeof plugin === 'function') { plugin.apply(null, args); } installedPlugins.push(plugin); return this };}
/* */
function initMixin$1 (Vue) { Vue.mixin = function (mixin) { this.options = mergeOptions(this.options, mixin); return this };}
/* */
function initExtend (Vue) { /** * Each instance constructor, including Vue, has a unique * cid. This enables us to create wrapped "child * constructors" for prototypal inheritance and cache them. */ Vue.cid = 0; let cid = 1;
/** * Class inheritance */ Vue.extend = function (extendOptions) { extendOptions = extendOptions || {}; const Super = this; const SuperId = Super.cid; const cachedCtors = extendOptions._Ctor || (extendOptions._Ctor = {}); if (cachedCtors[SuperId]) { return cachedCtors[SuperId] }
const name = extendOptions.name || Super.options.name; if (name) { validateComponentName(name); }
const Sub = function VueComponent (options) { this._init(options); }; Sub.prototype = Object.create(Super.prototype); Sub.prototype.constructor = Sub; Sub.cid = cid++; Sub.options = mergeOptions( Super.options, extendOptions ); Sub['super'] = Super;
// For props and computed properties, we define the proxy getters on
// the Vue instances at extension time, on the extended prototype. This
// avoids Object.defineProperty calls for each instance created.
if (Sub.options.props) { initProps$1(Sub); } if (Sub.options.computed) { initComputed$1(Sub); }
// allow further extension/mixin/plugin usage
Sub.extend = Super.extend; Sub.mixin = Super.mixin; Sub.use = Super.use;
// create asset registers, so extended classes
// can have their private assets too.
ASSET_TYPES.forEach(function (type) { Sub[type] = Super[type]; }); // enable recursive self-lookup
if (name) { Sub.options.components[name] = Sub; }
// keep a reference to the super options at extension time.
// later at instantiation we can check if Super's options have
// been updated.
Sub.superOptions = Super.options; Sub.extendOptions = extendOptions; Sub.sealedOptions = extend({}, Sub.options);
// cache constructor
cachedCtors[SuperId] = Sub; return Sub };}
function initProps$1 (Comp) { const props = Comp.options.props; for (const key in props) { proxy(Comp.prototype, `_props`, key); }}
function initComputed$1 (Comp) { const computed = Comp.options.computed; for (const key in computed) { defineComputed(Comp.prototype, key, computed[key]); }}
/* */
function initAssetRegisters (Vue) { /** * Create asset registration methods. */ ASSET_TYPES.forEach(type => { Vue[type] = function ( id, definition ) { if (!definition) { return this.options[type + 's'][id] } else { /* istanbul ignore if */ if (type === 'component') { validateComponentName(id); } if (type === 'component' && isPlainObject(definition)) { definition.name = definition.name || id; definition = this.options._base.extend(definition); } if (type === 'directive' && typeof definition === 'function') { definition = { bind: definition, update: definition }; } this.options[type + 's'][id] = definition; return definition } }; });}
/* */
function getComponentName (opts) { return opts && (opts.Ctor.options.name || opts.tag)}
function matches (pattern, name) { if (Array.isArray(pattern)) { return pattern.indexOf(name) > -1 } else if (typeof pattern === 'string') { return pattern.split(',').indexOf(name) > -1 } else if (isRegExp(pattern)) { return pattern.test(name) } /* istanbul ignore next */ return false}
function pruneCache (keepAliveInstance, filter) { const { cache, keys, _vnode } = keepAliveInstance; for (const key in cache) { const entry = cache[key]; if (entry) { const name = entry.name; if (name && !filter(name)) { pruneCacheEntry(cache, key, keys, _vnode); } } }}
function pruneCacheEntry ( cache, key, keys, current) { const entry = cache[key]; if (entry && (!current || entry.tag !== current.tag)) { entry.componentInstance.$destroy(); } cache[key] = null; remove(keys, key);}
const patternTypes = [String, RegExp, Array];
var KeepAlive = { name: 'keep-alive', abstract: true,
props: { include: patternTypes, exclude: patternTypes, max: [String, Number] },
methods: { cacheVNode() { const { cache, keys, vnodeToCache, keyToCache } = this; if (vnodeToCache) { const { tag, componentInstance, componentOptions } = vnodeToCache; cache[keyToCache] = { name: getComponentName(componentOptions), tag, componentInstance, }; keys.push(keyToCache); // prune oldest entry
if (this.max && keys.length > parseInt(this.max)) { pruneCacheEntry(cache, keys[0], keys, this._vnode); } this.vnodeToCache = null; } } },
created () { this.cache = Object.create(null); this.keys = []; },
destroyed () { for (const key in this.cache) { pruneCacheEntry(this.cache, key, this.keys); } },
mounted () { this.cacheVNode(); this.$watch('include', val => { pruneCache(this, name => matches(val, name)); }); this.$watch('exclude', val => { pruneCache(this, name => !matches(val, name)); }); },
updated () { this.cacheVNode(); },
render () { const slot = this.$slots.default; const vnode = getFirstComponentChild(slot); const componentOptions = vnode && vnode.componentOptions; if (componentOptions) { // check pattern
const name = getComponentName(componentOptions); const { include, exclude } = this; if ( // not included
(include && (!name || !matches(include, name))) || // excluded
(exclude && name && matches(exclude, name)) ) { return vnode }
const { cache, keys } = this; const key = vnode.key == null // same constructor may get registered as different local components
// so cid alone is not enough (#3269)
? componentOptions.Ctor.cid + (componentOptions.tag ? `::${componentOptions.tag}` : '') : vnode.key; if (cache[key]) { vnode.componentInstance = cache[key].componentInstance; // make current key freshest
remove(keys, key); keys.push(key); } else { // delay setting the cache until update
this.vnodeToCache = vnode; this.keyToCache = key; }
vnode.data.keepAlive = true; } return vnode || (slot && slot[0]) }};
var builtInComponents = { KeepAlive};
/* */
function initGlobalAPI (Vue) { // config
const configDef = {}; configDef.get = () => config; { configDef.set = () => { warn( 'Do not replace the Vue.config object, set individual fields instead.' ); }; } Object.defineProperty(Vue, 'config', configDef);
// exposed util methods.
// NOTE: these are not considered part of the public API - avoid relying on
// them unless you are aware of the risk.
Vue.util = { warn, extend, mergeOptions, defineReactive: defineReactive$$1 };
Vue.set = set; Vue.delete = del; Vue.nextTick = nextTick;
// 2.6 explicit observable API
Vue.observable = (obj) => { observe(obj); return obj };
Vue.options = Object.create(null); ASSET_TYPES.forEach(type => { Vue.options[type + 's'] = Object.create(null); });
// this is used to identify the "base" constructor to extend all plain-object
// components with in Weex's multi-instance scenarios.
Vue.options._base = Vue;
extend(Vue.options.components, builtInComponents);
initUse(Vue); initMixin$1(Vue); initExtend(Vue); initAssetRegisters(Vue);}
initGlobalAPI(Vue);
Object.defineProperty(Vue.prototype, '$isServer', { get: isServerRendering});
Object.defineProperty(Vue.prototype, '$ssrContext', { get () { /* istanbul ignore next */ return this.$vnode && this.$vnode.ssrContext }});
// expose FunctionalRenderContext for ssr runtime helper installation
Object.defineProperty(Vue, 'FunctionalRenderContext', { value: FunctionalRenderContext});
Vue.version = '2.6.14';
/* */
// these are reserved for web because they are directly compiled away
// during template compilation
const isReservedAttr = makeMap('style,class');
// attributes that should be using props for binding
const acceptValue = makeMap('input,textarea,option,select,progress');const mustUseProp = (tag, type, attr) => { return ( (attr === 'value' && acceptValue(tag)) && type !== 'button' || (attr === 'selected' && tag === 'option') || (attr === 'checked' && tag === 'input') || (attr === 'muted' && tag === 'video') )};
const isEnumeratedAttr = makeMap('contenteditable,draggable,spellcheck');
const isValidContentEditableValue = makeMap('events,caret,typing,plaintext-only');
const convertEnumeratedValue = (key, value) => { return isFalsyAttrValue(value) || value === 'false' ? 'false' // allow arbitrary string value for contenteditable
: key === 'contenteditable' && isValidContentEditableValue(value) ? value : 'true'};
const 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,' + 'truespeed,typemustmatch,visible');
const xlinkNS = 'http://www.w3.org/1999/xlink';
const isXlink = (name) => { return name.charAt(5) === ':' && name.slice(0, 5) === 'xlink'};
const getXlinkProp = (name) => { return isXlink(name) ? name.slice(6, name.length) : ''};
const isFalsyAttrValue = (val) => { return val == null || val === false};
/* */
function genClassForVnode (vnode) { let data = vnode.data; let parentNode = vnode; let childNode = vnode; while (isDef(childNode.componentInstance)) { childNode = childNode.componentInstance._vnode; if (childNode && childNode.data) { data = mergeClassData(childNode.data, data); } } while (isDef(parentNode = parentNode.parent)) { if (parentNode && parentNode.data) { data = mergeClassData(data, parentNode.data); } } return renderClass(data.staticClass, data.class)}
function mergeClassData (child, parent) { return { staticClass: concat(child.staticClass, parent.staticClass), class: isDef(child.class) ? [child.class, parent.class] : parent.class }}
function renderClass ( staticClass, dynamicClass) { if (isDef(staticClass) || isDef(dynamicClass)) { return concat(staticClass, stringifyClass(dynamicClass)) } /* istanbul ignore next */ return ''}
function concat (a, b) { return a ? b ? (a + ' ' + b) : a : (b || '')}
function stringifyClass (value) { if (Array.isArray(value)) { return stringifyArray(value) } if (isObject(value)) { return stringifyObject(value) } if (typeof value === 'string') { return value } /* istanbul ignore next */ return ''}
function stringifyArray (value) { let res = ''; let stringified; for (let i = 0, l = value.length; i < l; i++) { if (isDef(stringified = stringifyClass(value[i])) && stringified !== '') { if (res) res += ' '; res += stringified; } } return res}
function stringifyObject (value) { let res = ''; for (const key in value) { if (value[key]) { if (res) res += ' '; res += key; } } return res}
/* */
const namespaceMap = { svg: 'http://www.w3.org/2000/svg', math: 'http://www.w3.org/1998/Math/MathML'};
const isHTMLTag = makeMap( 'html,body,base,head,link,meta,style,title,' + 'address,article,aside,footer,header,h1,h2,h3,h4,h5,h6,hgroup,nav,section,' + 'div,dd,dl,dt,figcaption,figure,picture,hr,img,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,blockquote,iframe,tfoot');
// this map is intentionally selective, only covering SVG elements that may
// contain child elements.
const isSVG = makeMap( 'svg,animate,circle,clippath,cursor,defs,desc,ellipse,filter,font-face,' + 'foreignobject,g,glyph,image,line,marker,mask,missing-glyph,path,pattern,' + 'polygon,polyline,rect,switch,symbol,text,textpath,tspan,use,view', true);
const isPreTag = (tag) => tag === 'pre';
const isReservedTag = (tag) => { return isHTMLTag(tag) || isSVG(tag)};
function getTagNamespace (tag) { if (isSVG(tag)) { return 'svg' } // basic support for MathML
// note it doesn't support other MathML elements being component roots
if (tag === 'math') { return 'math' }}
const unknownElementCache = Object.create(null);function isUnknownElement (tag) { /* istanbul ignore if */ if (!inBrowser) { return true } if (isReservedTag(tag)) { return false } tag = tag.toLowerCase(); /* istanbul ignore if */ if (unknownElementCache[tag] != null) { return unknownElementCache[tag] } const el = document.createElement(tag); if (tag.indexOf('-') > -1) { // http://stackoverflow.com/a/28210364/1070244
return (unknownElementCache[tag] = ( el.constructor === window.HTMLUnknownElement || el.constructor === window.HTMLElement )) } else { return (unknownElementCache[tag] = /HTMLUnknownElement/.test(el.toString())) }}
const isTextInputType = makeMap('text,number,password,search,email,tel,url');
/* */
/** * Query an element selector if it's not an element already. */function query (el) { if (typeof el === 'string') { const selected = document.querySelector(el); if (!selected) { warn( 'Cannot find element: ' + el ); return document.createElement('div') } return selected } else { return el }}
/* */
function createElement$1 (tagName, vnode) { const elm = document.createElement(tagName); if (tagName !== 'select') { return elm } // false or null will remove the attribute but undefined will not
if (vnode.data && vnode.data.attrs && vnode.data.attrs.multiple !== undefined) { elm.setAttribute('multiple', 'multiple'); } return elm}
function createElementNS (namespace, tagName) { return document.createElementNS(namespaceMap[namespace], tagName)}
function createTextNode (text) { return document.createTextNode(text)}
function createComment (text) { return document.createComment(text)}
function insertBefore (parentNode, newNode, referenceNode) { parentNode.insertBefore(newNode, referenceNode);}
function removeChild (node, child) { node.removeChild(child);}
function appendChild (node, child) { node.appendChild(child);}
function parentNode (node) { return node.parentNode}
function nextSibling (node) { return node.nextSibling}
function tagName (node) { return node.tagName}
function setTextContent (node, text) { node.textContent = text;}
function setStyleScope (node, scopeId) { node.setAttribute(scopeId, '');}
var nodeOps = /*#__PURE__*/Object.freeze({ createElement: createElement$1, createElementNS: createElementNS, createTextNode: createTextNode, createComment: createComment, insertBefore: insertBefore, removeChild: removeChild, appendChild: appendChild, parentNode: parentNode, nextSibling: nextSibling, tagName: tagName, setTextContent: setTextContent, setStyleScope: setStyleScope});
/* */
var ref = { create (_, vnode) { registerRef(vnode); }, update (oldVnode, vnode) { if (oldVnode.data.ref !== vnode.data.ref) { registerRef(oldVnode, true); registerRef(vnode); } }, destroy (vnode) { registerRef(vnode, true); }};
function registerRef (vnode, isRemoval) { const key = vnode.data.ref; if (!isDef(key)) return
const vm = vnode.context; const ref = vnode.componentInstance || vnode.elm; const refs = vm.$refs; if (isRemoval) { if (Array.isArray(refs[key])) { remove(refs[key], ref); } else if (refs[key] === ref) { refs[key] = undefined; } } else { if (vnode.data.refInFor) { if (!Array.isArray(refs[key])) { refs[key] = [ref]; } else if (refs[key].indexOf(ref) < 0) { // $flow-disable-line
refs[key].push(ref); } } else { refs[key] = ref; } }}
/** * Virtual DOM patching algorithm based on Snabbdom by * Simon Friis Vindum (@paldepind) * Licensed under the MIT License * https://github.com/paldepind/snabbdom/blob/master/LICENSE
* * modified by Evan You (@yyx990803) * * Not type-checking this because this file is perf-critical and the cost * of making flow understand it is not worth it. */
const emptyNode = new VNode('', {}, []);
const hooks = ['create', 'activate', 'update', 'remove', 'destroy'];
function sameVnode (a, b) { return ( a.key === b.key && a.asyncFactory === b.asyncFactory && ( ( a.tag === b.tag && a.isComment === b.isComment && isDef(a.data) === isDef(b.data) && sameInputType(a, b) ) || ( isTrue(a.isAsyncPlaceholder) && isUndef(b.asyncFactory.error) ) ) )}
function sameInputType (a, b) { if (a.tag !== 'input') return true let i; const typeA = isDef(i = a.data) && isDef(i = i.attrs) && i.type; const typeB = isDef(i = b.data) && isDef(i = i.attrs) && i.type; return typeA === typeB || isTextInputType(typeA) && isTextInputType(typeB)}
function createKeyToOldIdx (children, beginIdx, endIdx) { let i, key; const map = {}; for (i = beginIdx; i <= endIdx; ++i) { key = children[i].key; if (isDef(key)) map[key] = i; } return map}
function createPatchFunction (backend) { let i, j; const cbs = {};
const { modules, nodeOps } = backend;
for (i = 0; i < hooks.length; ++i) { cbs[hooks[i]] = []; for (j = 0; j < modules.length; ++j) { if (isDef(modules[j][hooks[i]])) { cbs[hooks[i]].push(modules[j][hooks[i]]); } } }
function emptyNodeAt (elm) { return new VNode(nodeOps.tagName(elm).toLowerCase(), {}, [], undefined, elm) }
function createRmCb (childElm, listeners) { function remove$$1 () { if (--remove$$1.listeners === 0) { removeNode(childElm); } } remove$$1.listeners = listeners; return remove$$1 }
function removeNode (el) { const parent = nodeOps.parentNode(el); // element may have already been removed due to v-html / v-text
if (isDef(parent)) { nodeOps.removeChild(parent, el); } }
function isUnknownElement$$1 (vnode, inVPre) { return ( !inVPre && !vnode.ns && !( config.ignoredElements.length && config.ignoredElements.some(ignore => { return isRegExp(ignore) ? ignore.test(vnode.tag) : ignore === vnode.tag }) ) && config.isUnknownElement(vnode.tag) ) }
let creatingElmInVPre = 0;
function createElm ( vnode, insertedVnodeQueue, parentElm, refElm, nested, ownerArray, index ) { if (isDef(vnode.elm) && isDef(ownerArray)) { // This vnode was used in a previous render!
// now it's used as a new node, overwriting its elm would cause
// potential patch errors down the road when it's used as an insertion
// reference node. Instead, we clone the node on-demand before creating
// associated DOM element for it.
vnode = ownerArray[index] = cloneVNode(vnode); }
vnode.isRootInsert = !nested; // for transition enter check
if (createComponent(vnode, insertedVnodeQueue, parentElm, refElm)) { return }
const data = vnode.data; const children = vnode.children; const tag = vnode.tag; if (isDef(tag)) { { if (data && data.pre) { creatingElmInVPre++; } if (isUnknownElement$$1(vnode, creatingElmInVPre)) { warn( 'Unknown custom element: <' + tag + '> - did you ' + 'register the component correctly? For recursive components, ' + 'make sure to provide the "name" option.', vnode.context ); } }
vnode.elm = vnode.ns ? nodeOps.createElementNS(vnode.ns, tag) : nodeOps.createElement(tag, vnode); setScope(vnode);
/* istanbul ignore if */ { createChildren(vnode, children, insertedVnodeQueue); if (isDef(data)) { invokeCreateHooks(vnode, insertedVnodeQueue); } insert(parentElm, vnode.elm, refElm); }
if (data && data.pre) { creatingElmInVPre--; } } else if (isTrue(vnode.isComment)) { vnode.elm = nodeOps.createComment(vnode.text); insert(parentElm, vnode.elm, refElm); } else { vnode.elm = nodeOps.createTextNode(vnode.text); insert(parentElm, vnode.elm, refElm); } }
function createComponent (vnode, insertedVnodeQueue, parentElm, refElm) { let i = vnode.data; if (isDef(i)) { const isReactivated = isDef(vnode.componentInstance) && i.keepAlive; if (isDef(i = i.hook) && isDef(i = i.init)) { i(vnode, false /* hydrating */); } // after calling the init hook, if the vnode is a child component
// it should've created a child instance and mounted it. the child
// component also has set the placeholder vnode's elm.
// in that case we can just return the element and be done.
if (isDef(vnode.componentInstance)) { initComponent(vnode, insertedVnodeQueue); insert(parentElm, vnode.elm, refElm); if (isTrue(isReactivated)) { reactivateComponent(vnode, insertedVnodeQueue, parentElm, refElm); } return true } } }
function initComponent (vnode, insertedVnodeQueue) { if (isDef(vnode.data.pendingInsert)) { insertedVnodeQueue.push.apply(insertedVnodeQueue, vnode.data.pendingInsert); vnode.data.pendingInsert = null; } vnode.elm = vnode.componentInstance.$el; if (isPatchable(vnode)) { invokeCreateHooks(vnode, insertedVnodeQueue); setScope(vnode); } else { // empty component root.
// skip all element-related modules except for ref (#3455)
registerRef(vnode); // make sure to invoke the insert hook
insertedVnodeQueue.push(vnode); } }
function reactivateComponent (vnode, insertedVnodeQueue, parentElm, refElm) { let i; // hack for #4339: a reactivated component with inner transition
// does not trigger because the inner node's created hooks are not called
// again. It's not ideal to involve module-specific logic in here but
// there doesn't seem to be a better way to do it.
let innerNode = vnode; while (innerNode.componentInstance) { innerNode = innerNode.componentInstance._vnode; if (isDef(i = innerNode.data) && isDef(i = i.transition)) { for (i = 0; i < cbs.activate.length; ++i) { cbs.activate[i](emptyNode, innerNode); } insertedVnodeQueue.push(innerNode); break } } // unlike a newly created component,
// a reactivated keep-alive component doesn't insert itself
insert(parentElm, vnode.elm, refElm); }
function insert (parent, elm, ref$$1) { if (isDef(parent)) { if (isDef(ref$$1)) { if (nodeOps.parentNode(ref$$1) === parent) { nodeOps.insertBefore(parent, elm, ref$$1); } } else { nodeOps.appendChild(parent, elm); } } }
function createChildren (vnode, children, insertedVnodeQueue) { if (Array.isArray(children)) { { checkDuplicateKeys(children); } for (let i = 0; i < children.length; ++i) { createElm(children[i], insertedVnodeQueue, vnode.elm, null, true, children, i); } } else if (isPrimitive(vnode.text)) { nodeOps.appendChild(vnode.elm, nodeOps.createTextNode(String(vnode.text))); } }
function isPatchable (vnode) { while (vnode.componentInstance) { vnode = vnode.componentInstance._vnode; } return isDef(vnode.tag) }
function invokeCreateHooks (vnode, insertedVnodeQueue) { for (let i = 0; i < cbs.create.length; ++i) { cbs.create[i](emptyNode, vnode); } i = vnode.data.hook; // Reuse variable
if (isDef(i)) { if (isDef(i.create)) i.create(emptyNode, vnode); if (isDef(i.insert)) insertedVnodeQueue.push(vnode); } }
// set scope id attribute for scoped CSS.
// this is implemented as a special case to avoid the overhead
// of going through the normal attribute patching process.
function setScope (vnode) { let i; if (isDef(i = vnode.fnScopeId)) { nodeOps.setStyleScope(vnode.elm, i); } else { let ancestor = vnode; while (ancestor) { if (isDef(i = ancestor.context) && isDef(i = i.$options._scopeId)) { nodeOps.setStyleScope(vnode.elm, i); } ancestor = ancestor.parent; } } // for slot content they should also get the scopeId from the host instance.
if (isDef(i = activeInstance) && i !== vnode.context && i !== vnode.fnContext && isDef(i = i.$options._scopeId) ) { nodeOps.setStyleScope(vnode.elm, i); } }
function addVnodes (parentElm, refElm, vnodes, startIdx, endIdx, insertedVnodeQueue) { for (; startIdx <= endIdx; ++startIdx) { createElm(vnodes[startIdx], insertedVnodeQueue, parentElm, refElm, false, vnodes, startIdx); } }
function invokeDestroyHook (vnode) { let i, j; const data = vnode.data; if (isDef(data)) { if (isDef(i = data.hook) && isDef(i = i.destroy)) i(vnode); for (i = 0; i < cbs.destroy.length; ++i) cbs.destroy[i](vnode); } if (isDef(i = vnode.children)) { for (j = 0; j < vnode.children.length; ++j) { invokeDestroyHook(vnode.children[j]); } } }
function removeVnodes (vnodes, startIdx, endIdx) { for (; startIdx <= endIdx; ++startIdx) { const ch = vnodes[startIdx]; if (isDef(ch)) { if (isDef(ch.tag)) { removeAndInvokeRemoveHook(ch); invokeDestroyHook(ch); } else { // Text node
removeNode(ch.elm); } } } }
function removeAndInvokeRemoveHook (vnode, rm) { if (isDef(rm) || isDef(vnode.data)) { let i; const listeners = cbs.remove.length + 1; if (isDef(rm)) { // we have a recursively passed down rm callback
// increase the listeners count
rm.listeners += listeners; } else { // directly removing
rm = createRmCb(vnode.elm, listeners); } // recursively invoke hooks on child component root node
if (isDef(i = vnode.componentInstance) && isDef(i = i._vnode) && isDef(i.data)) { removeAndInvokeRemoveHook(i, rm); } for (i = 0; i < cbs.remove.length; ++i) { cbs.remove[i](vnode, rm); } if (isDef(i = vnode.data.hook) && isDef(i = i.remove)) { i(vnode, rm); } else { rm(); } } else { removeNode(vnode.elm); } }
function updateChildren (parentElm, oldCh, newCh, insertedVnodeQueue, removeOnly) { let oldStartIdx = 0; let newStartIdx = 0; let oldEndIdx = oldCh.length - 1; let oldStartVnode = oldCh[0]; let oldEndVnode = oldCh[oldEndIdx]; let newEndIdx = newCh.length - 1; let newStartVnode = newCh[0]; let newEndVnode = newCh[newEndIdx]; let oldKeyToIdx, idxInOld, vnodeToMove, refElm;
// removeOnly is a special flag used only by <transition-group>
// to ensure removed elements stay in correct relative positions
// during leaving transitions
const canMove = !removeOnly;
{ checkDuplicateKeys(newCh); }
while (oldStartIdx <= oldEndIdx && newStartIdx <= newEndIdx) { if (isUndef(oldStartVnode)) { oldStartVnode = oldCh[++oldStartIdx]; // Vnode has been moved left
} else if (isUndef(oldEndVnode)) { oldEndVnode = oldCh[--oldEndIdx]; } else if (sameVnode(oldStartVnode, newStartVnode)) { patchVnode(oldStartVnode, newStartVnode, insertedVnodeQueue, newCh, newStartIdx); oldStartVnode = oldCh[++oldStartIdx]; newStartVnode = newCh[++newStartIdx]; } else if (sameVnode(oldEndVnode, newEndVnode)) { patchVnode(oldEndVnode, newEndVnode, insertedVnodeQueue, newCh, newEndIdx); oldEndVnode = oldCh[--oldEndIdx]; newEndVnode = newCh[--newEndIdx]; } else if (sameVnode(oldStartVnode, newEndVnode)) { // Vnode moved right
patchVnode(oldStartVnode, newEndVnode, insertedVnodeQueue, newCh, newEndIdx); canMove && nodeOps.insertBefore(parentElm, oldStartVnode.elm, nodeOps.nextSibling(oldEndVnode.elm)); oldStartVnode = oldCh[++oldStartIdx]; newEndVnode = newCh[--newEndIdx]; } else if (sameVnode(oldEndVnode, newStartVnode)) { // Vnode moved left
patchVnode(oldEndVnode, newStartVnode, insertedVnodeQueue, newCh, newStartIdx); canMove && nodeOps.insertBefore(parentElm, oldEndVnode.elm, oldStartVnode.elm); oldEndVnode = oldCh[--oldEndIdx]; newStartVnode = newCh[++newStartIdx]; } else { if (isUndef(oldKeyToIdx)) oldKeyToIdx = createKeyToOldIdx(oldCh, oldStartIdx, oldEndIdx); idxInOld = isDef(newStartVnode.key) ? oldKeyToIdx[newStartVnode.key] : findIdxInOld(newStartVnode, oldCh, oldStartIdx, oldEndIdx); if (isUndef(idxInOld)) { // New element
createElm(newStartVnode, insertedVnodeQueue, parentElm, oldStartVnode.elm, false, newCh, newStartIdx); } else { vnodeToMove = oldCh[idxInOld]; if (sameVnode(vnodeToMove, newStartVnode)) { patchVnode(vnodeToMove, newStartVnode, insertedVnodeQueue, newCh, newStartIdx); oldCh[idxInOld] = undefined; canMove && nodeOps.insertBefore(parentElm, vnodeToMove.elm, oldStartVnode.elm); } else { // same key but different element. treat as new element
createElm(newStartVnode, insertedVnodeQueue, parentElm, oldStartVnode.elm, false, newCh, newStartIdx); } } newStartVnode = newCh[++newStartIdx]; } } if (oldStartIdx > oldEndIdx) { refElm = isUndef(newCh[newEndIdx + 1]) ? null : newCh[newEndIdx + 1].elm; addVnodes(parentElm, refElm, newCh, newStartIdx, newEndIdx, insertedVnodeQueue); } else if (newStartIdx > newEndIdx) { removeVnodes(oldCh, oldStartIdx, oldEndIdx); } }
function checkDuplicateKeys (children) { const seenKeys = {}; for (let i = 0; i < children.length; i++) { const vnode = children[i]; const key = vnode.key; if (isDef(key)) { if (seenKeys[key]) { warn( `Duplicate keys detected: '${key}'. This may cause an update error.`, vnode.context ); } else { seenKeys[key] = true; } } } }
function findIdxInOld (node, oldCh, start, end) { for (let i = start; i < end; i++) { const c = oldCh[i]; if (isDef(c) && sameVnode(node, c)) return i } }
function patchVnode ( oldVnode, vnode, insertedVnodeQueue, ownerArray, index, removeOnly ) { if (oldVnode === vnode) { return }
if (isDef(vnode.elm) && isDef(ownerArray)) { // clone reused vnode
vnode = ownerArray[index] = cloneVNode(vnode); }
const elm = vnode.elm = oldVnode.elm;
if (isTrue(oldVnode.isAsyncPlaceholder)) { if (isDef(vnode.asyncFactory.resolved)) { hydrate(oldVnode.elm, vnode, insertedVnodeQueue); } else { vnode.isAsyncPlaceholder = true; } return }
// reuse element for static trees.
// note we only do this if the vnode is cloned -
// if the new node is not cloned it means the render functions have been
// reset by the hot-reload-api and we need to do a proper re-render.
if (isTrue(vnode.isStatic) && isTrue(oldVnode.isStatic) && vnode.key === oldVnode.key && (isTrue(vnode.isCloned) || isTrue(vnode.isOnce)) ) { vnode.componentInstance = oldVnode.componentInstance; return }
let i; const data = vnode.data; if (isDef(data) && isDef(i = data.hook) && isDef(i = i.prepatch)) { i(oldVnode, vnode); }
const oldCh = oldVnode.children; const ch = vnode.children; if (isDef(data) && isPatchable(vnode)) { for (i = 0; i < cbs.update.length; ++i) cbs.update[i](oldVnode, vnode); if (isDef(i = data.hook) && isDef(i = i.update)) i(oldVnode, vnode); } if (isUndef(vnode.text)) { if (isDef(oldCh) && isDef(ch)) { if (oldCh !== ch) updateChildren(elm, oldCh, ch, insertedVnodeQueue, removeOnly); } else if (isDef(ch)) { { checkDuplicateKeys(ch); } if (isDef(oldVnode.text)) nodeOps.setTextContent(elm, ''); addVnodes(elm, null, ch, 0, ch.length - 1, insertedVnodeQueue); } else if (isDef(oldCh)) { removeVnodes(oldCh, 0, oldCh.length - 1); } else if (isDef(oldVnode.text)) { nodeOps.setTextContent(elm, ''); } } else if (oldVnode.text !== vnode.text) { nodeOps.setTextContent(elm, vnode.text); } if (isDef(data)) { if (isDef(i = data.hook) && isDef(i = i.postpatch)) i(oldVnode, vnode); } }
function invokeInsertHook (vnode, queue, initial) { // delay insert hooks for component root nodes, invoke them after the
// element is really inserted
if (isTrue(initial) && isDef(vnode.parent)) { vnode.parent.data.pendingInsert = queue; } else { for (let i = 0; i < queue.length; ++i) { queue[i].data.hook.insert(queue[i]); } } }
let hydrationBailed = false; // list of modules that can skip create hook during hydration because they
// are already rendered on the client or has no need for initialization
// Note: style is excluded because it relies on initial clone for future
// deep updates (#7063).
const isRenderedModule = makeMap('attrs,class,staticClass,staticStyle,key');
// Note: this is a browser-only function so we can assume elms are DOM nodes.
function hydrate (elm, vnode, insertedVnodeQueue, inVPre) { let i; const { tag, data, children } = vnode; inVPre = inVPre || (data && data.pre); vnode.elm = elm;
if (isTrue(vnode.isComment) && isDef(vnode.asyncFactory)) { vnode.isAsyncPlaceholder = true; return true } // assert node match
{ if (!assertNodeMatch(elm, vnode, inVPre)) { return false } } if (isDef(data)) { if (isDef(i = data.hook) && isDef(i = i.init)) i(vnode, true /* hydrating */); if (isDef(i = vnode.componentInstance)) { // child component. it should have hydrated its own tree.
initComponent(vnode, insertedVnodeQueue); return true } } if (isDef(tag)) { if (isDef(children)) { // empty element, allow client to pick up and populate children
if (!elm.hasChildNodes()) { createChildren(vnode, children, insertedVnodeQueue); } else { // v-html and domProps: innerHTML
if (isDef(i = data) && isDef(i = i.domProps) && isDef(i = i.innerHTML)) { if (i !== elm.innerHTML) { /* istanbul ignore if */ if (typeof console !== 'undefined' && !hydrationBailed ) { hydrationBailed = true; console.warn('Parent: ', elm); console.warn('server innerHTML: ', i); console.warn('client innerHTML: ', elm.innerHTML); } return false } } else { // iterate and compare children lists
let childrenMatch = true; let childNode = elm.firstChild; for (let i = 0; i < children.length; i++) { if (!childNode || !hydrate(childNode, children[i], insertedVnodeQueue, inVPre)) { childrenMatch = false; break } childNode = childNode.nextSibling; } // if childNode is not null, it means the actual childNodes list is
// longer than the virtual children list.
if (!childrenMatch || childNode) { /* istanbul ignore if */ if (typeof console !== 'undefined' && !hydrationBailed ) { hydrationBailed = true; console.warn('Parent: ', elm); console.warn('Mismatching childNodes vs. VNodes: ', elm.childNodes, children); } return false } } } } if (isDef(data)) { let fullInvoke = false; for (const key in data) { if (!isRenderedModule(key)) { fullInvoke = true; invokeCreateHooks(vnode, insertedVnodeQueue); break } } if (!fullInvoke && data['class']) { // ensure collecting deps for deep class bindings for future updates
traverse(data['class']); } } } else if (elm.data !== vnode.text) { elm.data = vnode.text; } return true }
function assertNodeMatch (node, vnode, inVPre) { if (isDef(vnode.tag)) { return vnode.tag.indexOf('vue-component') === 0 || ( !isUnknownElement$$1(vnode, inVPre) && vnode.tag.toLowerCase() === (node.tagName && node.tagName.toLowerCase()) ) } else { return node.nodeType === (vnode.isComment ? 8 : 3) } }
return function patch (oldVnode, vnode, hydrating, removeOnly) { if (isUndef(vnode)) { if (isDef(oldVnode)) invokeDestroyHook(oldVnode); return }
let isInitialPatch = false; const insertedVnodeQueue = [];
if (isUndef(oldVnode)) { // empty mount (likely as component), create new root element
isInitialPatch = true; createElm(vnode, insertedVnodeQueue); } else { const isRealElement = isDef(oldVnode.nodeType); if (!isRealElement && sameVnode(oldVnode, vnode)) { // patch existing root node
patchVnode(oldVnode, vnode, insertedVnodeQueue, null, null, removeOnly); } else { if (isRealElement) { // mounting to a real element
// check if this is server-rendered content and if we can perform
// a successful hydration.
if (oldVnode.nodeType === 1 && oldVnode.hasAttribute(SSR_ATTR)) { oldVnode.removeAttribute(SSR_ATTR); hydrating = true; } if (isTrue(hydrating)) { if (hydrate(oldVnode, vnode, insertedVnodeQueue)) { invokeInsertHook(vnode, insertedVnodeQueue, true); return oldVnode } else { warn( 'The client-side rendered virtual DOM tree is not matching ' + 'server-rendered content. This is likely caused by incorrect ' + 'HTML markup, for example nesting block-level elements inside ' + '<p>, or missing <tbody>. Bailing hydration and performing ' + 'full client-side render.' ); } } // either not server-rendered, or hydration failed.
// create an empty node and replace it
oldVnode = emptyNodeAt(oldVnode); }
// replacing existing element
const oldElm = oldVnode.elm; const parentElm = nodeOps.parentNode(oldElm);
// create new node
createElm( vnode, insertedVnodeQueue, // extremely rare edge case: do not insert if old element is in a
// leaving transition. Only happens when combining transition +
// keep-alive + HOCs. (#4590)
oldElm._leaveCb ? null : parentElm, nodeOps.nextSibling(oldElm) );
// update parent placeholder node element, recursively
if (isDef(vnode.parent)) { let ancestor = vnode.parent; const patchable = isPatchable(vnode); while (ancestor) { for (let i = 0; i < cbs.destroy.length; ++i) { cbs.destroy[i](ancestor); } ancestor.elm = vnode.elm; if (patchable) { for (let i = 0; i < cbs.create.length; ++i) { cbs.create[i](emptyNode, ancestor); } // #6513
// invoke insert hooks that may have been merged by create hooks.
// e.g. for directives that uses the "inserted" hook.
const insert = ancestor.data.hook.insert; if (insert.merged) { // start at index 1 to avoid re-invoking component mounted hook
for (let i = 1; i < insert.fns.length; i++) { insert.fns[i](); } } } else { registerRef(ancestor); } ancestor = ancestor.parent; } }
// destroy old node
if (isDef(parentElm)) { removeVnodes([oldVnode], 0, 0); } else if (isDef(oldVnode.tag)) { invokeDestroyHook(oldVnode); } } }
invokeInsertHook(vnode, insertedVnodeQueue, isInitialPatch); return vnode.elm }}
/* */
var directives = { create: updateDirectives, update: updateDirectives, destroy: function unbindDirectives (vnode) { updateDirectives(vnode, emptyNode); }};
function updateDirectives (oldVnode, vnode) { if (oldVnode.data.directives || vnode.data.directives) { _update(oldVnode, vnode); }}
function _update (oldVnode, vnode) { const isCreate = oldVnode === emptyNode; const isDestroy = vnode === emptyNode; const oldDirs = normalizeDirectives$1(oldVnode.data.directives, oldVnode.context); const newDirs = normalizeDirectives$1(vnode.data.directives, vnode.context);
const dirsWithInsert = []; const dirsWithPostpatch = [];
let key, oldDir, dir; for (key in newDirs) { oldDir = oldDirs[key]; dir = newDirs[key]; if (!oldDir) { // new directive, bind
callHook$1(dir, 'bind', vnode, oldVnode); if (dir.def && dir.def.inserted) { dirsWithInsert.push(dir); } } else { // existing directive, update
dir.oldValue = oldDir.value; dir.oldArg = oldDir.arg; callHook$1(dir, 'update', vnode, oldVnode); if (dir.def && dir.def.componentUpdated) { dirsWithPostpatch.push(dir); } } }
if (dirsWithInsert.length) { const callInsert = () => { for (let i = 0; i < dirsWithInsert.length; i++) { callHook$1(dirsWithInsert[i], 'inserted', vnode, oldVnode); } }; if (isCreate) { mergeVNodeHook(vnode, 'insert', callInsert); } else { callInsert(); } }
if (dirsWithPostpatch.length) { mergeVNodeHook(vnode, 'postpatch', () => { for (let i = 0; i < dirsWithPostpatch.length; i++) { callHook$1(dirsWithPostpatch[i], 'componentUpdated', vnode, oldVnode); } }); }
if (!isCreate) { for (key in oldDirs) { if (!newDirs[key]) { // no longer present, unbind
callHook$1(oldDirs[key], 'unbind', oldVnode, oldVnode, isDestroy); } } }}
const emptyModifiers = Object.create(null);
function normalizeDirectives$1 ( dirs, vm) { const res = Object.create(null); if (!dirs) { // $flow-disable-line
return res } let i, dir; for (i = 0; i < dirs.length; i++) { dir = dirs[i]; if (!dir.modifiers) { // $flow-disable-line
dir.modifiers = emptyModifiers; } res[getRawDirName(dir)] = dir; dir.def = resolveAsset(vm.$options, 'directives', dir.name, true); } // $flow-disable-line
return res}
function getRawDirName (dir) { return dir.rawName || `${dir.name}.${Object.keys(dir.modifiers || {}).join('.')}`}
function callHook$1 (dir, hook, vnode, oldVnode, isDestroy) { const fn = dir.def && dir.def[hook]; if (fn) { try { fn(vnode.elm, dir, vnode, oldVnode, isDestroy); } catch (e) { handleError(e, vnode.context, `directive ${dir.name} ${hook} hook`); } }}
var baseModules = [ ref, directives];
/* */
function updateAttrs (oldVnode, vnode) { const opts = vnode.componentOptions; if (isDef(opts) && opts.Ctor.options.inheritAttrs === false) { return } if (isUndef(oldVnode.data.attrs) && isUndef(vnode.data.attrs)) { return } let key, cur, old; const elm = vnode.elm; const oldAttrs = oldVnode.data.attrs || {}; let attrs = vnode.data.attrs || {}; // clone observed objects, as the user probably wants to mutate it
if (isDef(attrs.__ob__)) { attrs = vnode.data.attrs = extend({}, attrs); }
for (key in attrs) { cur = attrs[key]; old = oldAttrs[key]; if (old !== cur) { setAttr(elm, key, cur, vnode.data.pre); } } // #4391: in IE9, setting type can reset value for input[type=radio]
// #6666: IE/Edge forces progress value down to 1 before setting a max
/* istanbul ignore if */ if ((isIE || isEdge) && attrs.value !== oldAttrs.value) { setAttr(elm, 'value', attrs.value); } for (key in oldAttrs) { if (isUndef(attrs[key])) { if (isXlink(key)) { elm.removeAttributeNS(xlinkNS, getXlinkProp(key)); } else if (!isEnumeratedAttr(key)) { elm.removeAttribute(key); } } }}
function setAttr (el, key, value, isInPre) { if (isInPre || el.tagName.indexOf('-') > -1) { baseSetAttr(el, key, value); } else if (isBooleanAttr(key)) { // set attribute for blank value
// e.g. <option disabled>Select one</option>
if (isFalsyAttrValue(value)) { el.removeAttribute(key); } else { // technically allowfullscreen is a boolean attribute for <iframe>,
// but Flash expects a value of "true" when used on <embed> tag
value = key === 'allowfullscreen' && el.tagName === 'EMBED' ? 'true' : key; el.setAttribute(key, value); } } else if (isEnumeratedAttr(key)) { el.setAttribute(key, convertEnumeratedValue(key, value)); } else if (isXlink(key)) { if (isFalsyAttrValue(value)) { el.removeAttributeNS(xlinkNS, getXlinkProp(key)); } else { el.setAttributeNS(xlinkNS, key, value); } } else { baseSetAttr(el, key, value); }}
function baseSetAttr (el, key, value) { if (isFalsyAttrValue(value)) { el.removeAttribute(key); } else { // #7138: IE10 & 11 fires input event when setting placeholder on
// <textarea>... block the first input event and remove the blocker
// immediately.
/* istanbul ignore if */ if ( isIE && !isIE9 && el.tagName === 'TEXTAREA' && key === 'placeholder' && value !== '' && !el.__ieph ) { const blocker = e => { e.stopImmediatePropagation(); el.removeEventListener('input', blocker); }; el.addEventListener('input', blocker); // $flow-disable-line
el.__ieph = true; /* IE placeholder patched */ } el.setAttribute(key, value); }}
var attrs = { create: updateAttrs, update: updateAttrs};
/* */
function updateClass (oldVnode, vnode) { const el = vnode.elm; const data = vnode.data; const oldData = oldVnode.data; if ( isUndef(data.staticClass) && isUndef(data.class) && ( isUndef(oldData) || ( isUndef(oldData.staticClass) && isUndef(oldData.class) ) ) ) { return }
let cls = genClassForVnode(vnode);
// handle transition classes
const transitionClass = el._transitionClasses; if (isDef(transitionClass)) { cls = concat(cls, stringifyClass(transitionClass)); }
// set the class
if (cls !== el._prevClass) { el.setAttribute('class', cls); el._prevClass = cls; }}
var klass = { create: updateClass, update: updateClass};
/* */
const validDivisionCharRE = /[\w).+\-_$\]]/;
function parseFilters (exp) { let inSingle = false; let inDouble = false; let inTemplateString = false; let inRegex = false; let curly = 0; let square = 0; let paren = 0; let lastFilterIndex = 0; let c, prev, i, expression, filters;
for (i = 0; i < exp.length; i++) { prev = c; c = exp.charCodeAt(i); if (inSingle) { if (c === 0x27 && prev !== 0x5C) inSingle = false; } else if (inDouble) { if (c === 0x22 && prev !== 0x5C) inDouble = false; } else if (inTemplateString) { if (c === 0x60 && prev !== 0x5C) inTemplateString = false; } else if (inRegex) { if (c === 0x2f && prev !== 0x5C) inRegex = false; } else if ( c === 0x7C && // pipe
exp.charCodeAt(i + 1) !== 0x7C && exp.charCodeAt(i - 1) !== 0x7C && !curly && !square && !paren ) { if (expression === undefined) { // first filter, end of expression
lastFilterIndex = i + 1; expression = exp.slice(0, i).trim(); } else { pushFilter(); } } else { switch (c) { case 0x22: inDouble = true; break // "
case 0x27: inSingle = true; break // '
case 0x60: inTemplateString = true; break // `
case 0x28: paren++; break // (
case 0x29: paren--; break // )
case 0x5B: square++; break // [
case 0x5D: square--; break // ]
case 0x7B: curly++; break // {
case 0x7D: curly--; break // }
} if (c === 0x2f) { // /
let j = i - 1; let p; // find first non-whitespace prev char
for (; j >= 0; j--) { p = exp.charAt(j); if (p !== ' ') break } if (!p || !validDivisionCharRE.test(p)) { inRegex = true; } } } }
if (expression === undefined) { expression = exp.slice(0, i).trim(); } else if (lastFilterIndex !== 0) { pushFilter(); }
function pushFilter () { (filters || (filters = [])).push(exp.slice(lastFilterIndex, i).trim()); lastFilterIndex = i + 1; }
if (filters) { for (i = 0; i < filters.length; i++) { expression = wrapFilter(expression, filters[i]); } }
return expression}
function wrapFilter (exp, filter) { const i = filter.indexOf('('); if (i < 0) { // _f: resolveFilter
return `_f("${filter}")(${exp})` } else { const name = filter.slice(0, i); const args = filter.slice(i + 1); return `_f("${name}")(${exp}${args !== ')' ? ',' + args : args}` }}
/* */
/* eslint-disable no-unused-vars */function baseWarn (msg, range) { console.error(`[Vue compiler]: ${msg}`);}/* eslint-enable no-unused-vars */
function pluckModuleFunction ( modules, key) { return modules ? modules.map(m => m[key]).filter(_ => _) : []}
function addProp (el, name, value, range, dynamic) { (el.props || (el.props = [])).push(rangeSetItem({ name, value, dynamic }, range)); el.plain = false;}
function addAttr (el, name, value, range, dynamic) { const attrs = dynamic ? (el.dynamicAttrs || (el.dynamicAttrs = [])) : (el.attrs || (el.attrs = [])); attrs.push(rangeSetItem({ name, value, dynamic }, range)); el.plain = false;}
// add a raw attr (use this in preTransforms)
function addRawAttr (el, name, value, range) { el.attrsMap[name] = value; el.attrsList.push(rangeSetItem({ name, value }, range));}
function addDirective ( el, name, rawName, value, arg, isDynamicArg, modifiers, range) { (el.directives || (el.directives = [])).push(rangeSetItem({ name, rawName, value, arg, isDynamicArg, modifiers }, range)); el.plain = false;}
function prependModifierMarker (symbol, name, dynamic) { return dynamic ? `_p(${name},"${symbol}")` : symbol + name // mark the event as captured
}
function addHandler ( el, name, value, modifiers, important, warn, range, dynamic) { modifiers = modifiers || emptyObject; // warn prevent and passive modifier
/* istanbul ignore if */ if ( warn && modifiers.prevent && modifiers.passive ) { warn( 'passive and prevent can\'t be used together. ' + 'Passive handler can\'t prevent default event.', range ); }
// normalize click.right and click.middle since they don't actually fire
// this is technically browser-specific, but at least for now browsers are
// the only target envs that have right/middle clicks.
if (modifiers.right) { if (dynamic) { name = `(${name})==='click'?'contextmenu':(${name})`; } else if (name === 'click') { name = 'contextmenu'; delete modifiers.right; } } else if (modifiers.middle) { if (dynamic) { name = `(${name})==='click'?'mouseup':(${name})`; } else if (name === 'click') { name = 'mouseup'; } }
// check capture modifier
if (modifiers.capture) { delete modifiers.capture; name = prependModifierMarker('!', name, dynamic); } if (modifiers.once) { delete modifiers.once; name = prependModifierMarker('~', name, dynamic); } /* istanbul ignore if */ if (modifiers.passive) { delete modifiers.passive; name = prependModifierMarker('&', name, dynamic); }
let events; if (modifiers.native) { delete modifiers.native; events = el.nativeEvents || (el.nativeEvents = {}); } else { events = el.events || (el.events = {}); }
const newHandler = rangeSetItem({ value: value.trim(), dynamic }, range); if (modifiers !== emptyObject) { newHandler.modifiers = modifiers; }
const handlers = events[name]; /* istanbul ignore if */ if (Array.isArray(handlers)) { important ? handlers.unshift(newHandler) : handlers.push(newHandler); } else if (handlers) { events[name] = important ? [newHandler, handlers] : [handlers, newHandler]; } else { events[name] = newHandler; }
el.plain = false;}
function getRawBindingAttr ( el, name) { return el.rawAttrsMap[':' + name] || el.rawAttrsMap['v-bind:' + name] || el.rawAttrsMap[name]}
function getBindingAttr ( el, name, getStatic) { const dynamicValue = getAndRemoveAttr(el, ':' + name) || getAndRemoveAttr(el, 'v-bind:' + name); if (dynamicValue != null) { return parseFilters(dynamicValue) } else if (getStatic !== false) { const staticValue = getAndRemoveAttr(el, name); if (staticValue != null) { return JSON.stringify(staticValue) } }}
// note: this only removes the attr from the Array (attrsList) so that it
// doesn't get processed by processAttrs.
// By default it does NOT remove it from the map (attrsMap) because the map is
// needed during codegen.
function getAndRemoveAttr ( el, name, removeFromMap) { let val; if ((val = el.attrsMap[name]) != null) { const list = el.attrsList; for (let i = 0, l = list.length; i < l; i++) { if (list[i].name === name) { list.splice(i, 1); break } } } if (removeFromMap) { delete el.attrsMap[name]; } return val}
function getAndRemoveAttrByRegex ( el, name) { const list = el.attrsList; for (let i = 0, l = list.length; i < l; i++) { const attr = list[i]; if (name.test(attr.name)) { list.splice(i, 1); return attr } }}
function rangeSetItem ( item, range) { if (range) { if (range.start != null) { item.start = range.start; } if (range.end != null) { item.end = range.end; } } return item}
/* */
/** * Cross-platform code generation for component v-model */function genComponentModel ( el, value, modifiers) { const { number, trim } = modifiers || {};
const baseValueExpression = '$$v'; let valueExpression = baseValueExpression; if (trim) { valueExpression = `(typeof ${baseValueExpression} === 'string'` + `? ${baseValueExpression}.trim()` + `: ${baseValueExpression})`; } if (number) { valueExpression = `_n(${valueExpression})`; } const assignment = genAssignmentCode(value, valueExpression);
el.model = { value: `(${value})`, expression: JSON.stringify(value), callback: `function (${baseValueExpression}) {${assignment}}` };}
/** * Cross-platform codegen helper for generating v-model value assignment code. */function genAssignmentCode ( value, assignment) { const res = parseModel(value); if (res.key === null) { return `${value}=${assignment}` } else { return `$set(${res.exp}, ${res.key}, ${assignment})` }}
/** * Parse a v-model expression into a base path and a final key segment. * Handles both dot-path and possible square brackets. * * Possible cases: * * - test * - test[key] * - test[test1[key]] * - test["a"][key] * - xxx.test[a[a].test1[key]] * - test.xxx.a["asa"][test1[key]] * */
let len, str, chr, index$1, expressionPos, expressionEndPos;
function parseModel (val) { // Fix https://github.com/vuejs/vue/pull/7730
// allow v-model="obj.val " (trailing whitespace)
val = val.trim(); len = val.length;
if (val.indexOf('[') < 0 || val.lastIndexOf(']') < len - 1) { index$1 = val.lastIndexOf('.'); if (index$1 > -1) { return { exp: val.slice(0, index$1), key: '"' + val.slice(index$1 + 1) + '"' } } else { return { exp: val, key: null } } }
str = val; index$1 = expressionPos = expressionEndPos = 0;
while (!eof()) { chr = next(); /* istanbul ignore if */ if (isStringStart(chr)) { parseString(chr); } else if (chr === 0x5B) { parseBracket(chr); } }
return { exp: val.slice(0, expressionPos), key: val.slice(expressionPos + 1, expressionEndPos) }}
function next () { return str.charCodeAt(++index$1)}
function eof () { return index$1 >= len}
function isStringStart (chr) { return chr === 0x22 || chr === 0x27}
function parseBracket (chr) { let inBracket = 1; expressionPos = index$1; while (!eof()) { chr = next(); if (isStringStart(chr)) { parseString(chr); continue } if (chr === 0x5B) inBracket++; if (chr === 0x5D) inBracket--; if (inBracket === 0) { expressionEndPos = index$1; break } }}
function parseString (chr) { const stringQuote = chr; while (!eof()) { chr = next(); if (chr === stringQuote) { break } }}
/* */
let warn$1;
// in some cases, the event used has to be determined at runtime
// so we used some reserved tokens during compile.
const RANGE_TOKEN = '__r';const CHECKBOX_RADIO_TOKEN = '__c';
function model ( el, dir, _warn) { warn$1 = _warn; const value = dir.value; const modifiers = dir.modifiers; const tag = el.tag; const type = el.attrsMap.type;
{ // inputs with type="file" are read only and setting the input's
// value will throw an error.
if (tag === 'input' && type === 'file') { warn$1( `<${el.tag} v-model="${value}" type="file">:\n` + `File inputs are read only. Use a v-on:change listener instead.`, el.rawAttrsMap['v-model'] ); } }
if (el.component) { genComponentModel(el, value, modifiers); // component v-model doesn't need extra runtime
return false } else if (tag === 'select') { genSelect(el, value, modifiers); } else if (tag === 'input' && type === 'checkbox') { genCheckboxModel(el, value, modifiers); } else if (tag === 'input' && type === 'radio') { genRadioModel(el, value, modifiers); } else if (tag === 'input' || tag === 'textarea') { genDefaultModel(el, value, modifiers); } else if (!config.isReservedTag(tag)) { genComponentModel(el, value, modifiers); // component v-model doesn't need extra runtime
return false } else { warn$1( `<${el.tag} v-model="${value}">: ` + `v-model is not supported on this element type. ` + 'If you are working with contenteditable, it\'s recommended to ' + 'wrap a library dedicated for that purpose inside a custom component.', el.rawAttrsMap['v-model'] ); }
// ensure runtime directive metadata
return true}
function genCheckboxModel ( el, value, modifiers) { const number = modifiers && modifiers.number; const valueBinding = getBindingAttr(el, 'value') || 'null'; const trueValueBinding = getBindingAttr(el, 'true-value') || 'true'; const falseValueBinding = getBindingAttr(el, 'false-value') || 'false'; addProp(el, 'checked', `Array.isArray(${value})` + `?_i(${value},${valueBinding})>-1` + ( trueValueBinding === 'true' ? `:(${value})` : `:_q(${value},${trueValueBinding})` ) ); addHandler(el, 'change', `var $$a=${value},` + '$$el=$event.target,' + `$$c=$$el.checked?(${trueValueBinding}):(${falseValueBinding});` + 'if(Array.isArray($$a)){' + `var $$v=${number ? '_n(' + valueBinding + ')' : valueBinding},` + '$$i=_i($$a,$$v);' + `if($$el.checked){$$i<0&&(${genAssignmentCode(value, '$$a.concat([$$v])')})}` + `else{$$i>-1&&(${genAssignmentCode(value, '$$a.slice(0,$$i).concat($$a.slice($$i+1))')})}` + `}else{${genAssignmentCode(value, '$$c')}}`, null, true );}
function genRadioModel ( el, value, modifiers) { const number = modifiers && modifiers.number; let valueBinding = getBindingAttr(el, 'value') || 'null'; valueBinding = number ? `_n(${valueBinding})` : valueBinding; addProp(el, 'checked', `_q(${value},${valueBinding})`); addHandler(el, 'change', genAssignmentCode(value, valueBinding), null, true);}
function genSelect ( el, value, modifiers) { const number = modifiers && modifiers.number; const selectedVal = `Array.prototype.filter` + `.call($event.target.options,function(o){return o.selected})` + `.map(function(o){var val = "_value" in o ? o._value : o.value;` + `return ${number ? '_n(val)' : 'val'}})`;
const assignment = '$event.target.multiple ? $$selectedVal : $$selectedVal[0]'; let code = `var $$selectedVal = ${selectedVal};`; code = `${code} ${genAssignmentCode(value, assignment)}`; addHandler(el, 'change', code, null, true);}
function genDefaultModel ( el, value, modifiers) { const type = el.attrsMap.type;
// warn if v-bind:value conflicts with v-model
// except for inputs with v-bind:type
{ const value = el.attrsMap['v-bind:value'] || el.attrsMap[':value']; const typeBinding = el.attrsMap['v-bind:type'] || el.attrsMap[':type']; if (value && !typeBinding) { const binding = el.attrsMap['v-bind:value'] ? 'v-bind:value' : ':value'; warn$1( `${binding}="${value}" conflicts with v-model on the same element ` + 'because the latter already expands to a value binding internally', el.rawAttrsMap[binding] ); } }
const { lazy, number, trim } = modifiers || {}; const needCompositionGuard = !lazy && type !== 'range'; const event = lazy ? 'change' : type === 'range' ? RANGE_TOKEN : 'input';
let valueExpression = '$event.target.value'; if (trim) { valueExpression = `$event.target.value.trim()`; } if (number) { valueExpression = `_n(${valueExpression})`; }
let code = genAssignmentCode(value, valueExpression); if (needCompositionGuard) { code = `if($event.target.composing)return;${code}`; }
addProp(el, 'value', `(${value})`); addHandler(el, event, code, null, true); if (trim || number) { addHandler(el, 'blur', '$forceUpdate()'); }}
/* */
// normalize v-model event tokens that can only be determined at runtime.
// it's important to place the event as the first in the array because
// the whole point is ensuring the v-model callback gets called before
// user-attached handlers.
function normalizeEvents (on) { /* istanbul ignore if */ if (isDef(on[RANGE_TOKEN])) { // IE input[type=range] only supports `change` event
const event = isIE ? 'change' : 'input'; on[event] = [].concat(on[RANGE_TOKEN], on[event] || []); delete on[RANGE_TOKEN]; } // This was originally intended to fix #4521 but no longer necessary
// after 2.5. Keeping it for backwards compat with generated code from < 2.4
/* istanbul ignore if */ if (isDef(on[CHECKBOX_RADIO_TOKEN])) { on.change = [].concat(on[CHECKBOX_RADIO_TOKEN], on.change || []); delete on[CHECKBOX_RADIO_TOKEN]; }}
let target$1;
function createOnceHandler$1 (event, handler, capture) { const _target = target$1; // save current target element in closure
return function onceHandler () { const res = handler.apply(null, arguments); if (res !== null) { remove$2(event, onceHandler, capture, _target); } }}
// #9446: Firefox <= 53 (in particular, ESR 52) has incorrect Event.timeStamp
// implementation and does not fire microtasks in between event propagation, so
// safe to exclude.
const useMicrotaskFix = isUsingMicroTask && !(isFF && Number(isFF[1]) <= 53);
function add$1 ( name, handler, capture, passive) { // async edge case #6566: inner click event triggers patch, event handler
// attached to outer element during patch, and triggered again. This
// happens because browsers fire microtask ticks between event propagation.
// the solution is simple: we save the timestamp when a handler is attached,
// and the handler would only fire if the event passed to it was fired
// AFTER it was attached.
if (useMicrotaskFix) { const attachedTimestamp = currentFlushTimestamp; const original = handler; handler = original._wrapper = function (e) { if ( // no bubbling, should always fire.
// this is just a safety net in case event.timeStamp is unreliable in
// certain weird environments...
e.target === e.currentTarget || // event is fired after handler attachment
e.timeStamp >= attachedTimestamp || // bail for environments that have buggy event.timeStamp implementations
// #9462 iOS 9 bug: event.timeStamp is 0 after history.pushState
// #9681 QtWebEngine event.timeStamp is negative value
e.timeStamp <= 0 || // #9448 bail if event is fired in another document in a multi-page
// electron/nw.js app, since event.timeStamp will be using a different
// starting reference
e.target.ownerDocument !== document ) { return original.apply(this, arguments) } }; } target$1.addEventListener( name, handler, supportsPassive ? { capture, passive } : capture );}
function remove$2 ( name, handler, capture, _target) { (_target || target$1).removeEventListener( name, handler._wrapper || handler, capture );}
function updateDOMListeners (oldVnode, vnode) { if (isUndef(oldVnode.data.on) && isUndef(vnode.data.on)) { return } const on = vnode.data.on || {}; const oldOn = oldVnode.data.on || {}; target$1 = vnode.elm; normalizeEvents(on); updateListeners(on, oldOn, add$1, remove$2, createOnceHandler$1, vnode.context); target$1 = undefined;}
var events = { create: updateDOMListeners, update: updateDOMListeners};
/* */
let svgContainer;
function updateDOMProps (oldVnode, vnode) { if (isUndef(oldVnode.data.domProps) && isUndef(vnode.data.domProps)) { return } let key, cur; const elm = vnode.elm; const oldProps = oldVnode.data.domProps || {}; let props = vnode.data.domProps || {}; // clone observed objects, as the user probably wants to mutate it
if (isDef(props.__ob__)) { props = vnode.data.domProps = extend({}, props); }
for (key in oldProps) { if (!(key in props)) { elm[key] = ''; } }
for (key in props) { cur = props[key]; // ignore children if the node has textContent or innerHTML,
// as these will throw away existing DOM nodes and cause removal errors
// on subsequent patches (#3360)
if (key === 'textContent' || key === 'innerHTML') { if (vnode.children) vnode.children.length = 0; if (cur === oldProps[key]) continue // #6601 work around Chrome version <= 55 bug where single textNode
// replaced by innerHTML/textContent retains its parentNode property
if (elm.childNodes.length === 1) { elm.removeChild(elm.childNodes[0]); } }
if (key === 'value' && elm.tagName !== 'PROGRESS') { // store value as _value as well since
// non-string values will be stringified
elm._value = cur; // avoid resetting cursor position when value is the same
const strCur = isUndef(cur) ? '' : String(cur); if (shouldUpdateValue(elm, strCur)) { elm.value = strCur; } } else if (key === 'innerHTML' && isSVG(elm.tagName) && isUndef(elm.innerHTML)) { // IE doesn't support innerHTML for SVG elements
svgContainer = svgContainer || document.createElement('div'); svgContainer.innerHTML = `<svg>${cur}</svg>`; const svg = svgContainer.firstChild; while (elm.firstChild) { elm.removeChild(elm.firstChild); } while (svg.firstChild) { elm.appendChild(svg.firstChild); } } else if ( // skip the update if old and new VDOM state is the same.
// `value` is handled separately because the DOM value may be temporarily
// out of sync with VDOM state due to focus, composition and modifiers.
// This #4521 by skipping the unnecessary `checked` update.
cur !== oldProps[key] ) { // some property updates can throw
// e.g. `value` on <progress> w/ non-finite value
try { elm[key] = cur; } catch (e) {} } }}
// check platforms/web/util/attrs.js acceptValue
function shouldUpdateValue (elm, checkVal) { return (!elm.composing && ( elm.tagName === 'OPTION' || isNotInFocusAndDirty(elm, checkVal) || isDirtyWithModifiers(elm, checkVal) ))}
function isNotInFocusAndDirty (elm, checkVal) { // return true when textbox (.number and .trim) loses focus and its value is
// not equal to the updated value
let notInFocus = true; // #6157
// work around IE bug when accessing document.activeElement in an iframe
try { notInFocus = document.activeElement !== elm; } catch (e) {} return notInFocus && elm.value !== checkVal}
function isDirtyWithModifiers (elm, newVal) { const value = elm.value; const modifiers = elm._vModifiers; // injected by v-model runtime
if (isDef(modifiers)) { if (modifiers.number) { return toNumber(value) !== toNumber(newVal) } if (modifiers.trim) { return value.trim() !== newVal.trim() } } return value !== newVal}
var domProps = { create: updateDOMProps, update: updateDOMProps};
/* */
const parseStyleText = cached(function (cssText) { const res = {}; const listDelimiter = /;(?![^(]*\))/g; const propertyDelimiter = /:(.+)/; cssText.split(listDelimiter).forEach(function (item) { if (item) { const tmp = item.split(propertyDelimiter); tmp.length > 1 && (res[tmp[0].trim()] = tmp[1].trim()); } }); return res});
// merge static and dynamic style data on the same vnode
function normalizeStyleData (data) { const style = normalizeStyleBinding(data.style); // static style is pre-processed into an object during compilation
// and is always a fresh object, so it's safe to merge into it
return data.staticStyle ? extend(data.staticStyle, style) : style}
// normalize possible array / string values into Object
function normalizeStyleBinding (bindingStyle) { if (Array.isArray(bindingStyle)) { return toObject(bindingStyle) } if (typeof bindingStyle === 'string') { return parseStyleText(bindingStyle) } return bindingStyle}
/** * parent component style should be after child's * so that parent component's style could override it */function getStyle (vnode, checkChild) { const res = {}; let styleData;
if (checkChild) { let childNode = vnode; while (childNode.componentInstance) { childNode = childNode.componentInstance._vnode; if ( childNode && childNode.data && (styleData = normalizeStyleData(childNode.data)) ) { extend(res, styleData); } } }
if ((styleData = normalizeStyleData(vnode.data))) { extend(res, styleData); }
let parentNode = vnode; while ((parentNode = parentNode.parent)) { if (parentNode.data && (styleData = normalizeStyleData(parentNode.data))) { extend(res, styleData); } } return res}
/* */
const cssVarRE = /^--/;const importantRE = /\s*!important$/;const setProp = (el, name, val) => { /* istanbul ignore if */ if (cssVarRE.test(name)) { el.style.setProperty(name, val); } else if (importantRE.test(val)) { el.style.setProperty(hyphenate(name), val.replace(importantRE, ''), 'important'); } else { const normalizedName = normalize(name); if (Array.isArray(val)) { // Support values array created by autoprefixer, e.g.
// {display: ["-webkit-box", "-ms-flexbox", "flex"]}
// Set them one by one, and the browser will only set those it can recognize
for (let i = 0, len = val.length; i < len; i++) { el.style[normalizedName] = val[i]; } } else { el.style[normalizedName] = val; } }};
const vendorNames = ['Webkit', 'Moz', 'ms'];
let emptyStyle;const normalize = cached(function (prop) { emptyStyle = emptyStyle || document.createElement('div').style; prop = camelize(prop); if (prop !== 'filter' && (prop in emptyStyle)) { return prop } const capName = prop.charAt(0).toUpperCase() + prop.slice(1); for (let i = 0; i < vendorNames.length; i++) { const name = vendorNames[i] + capName; if (name in emptyStyle) { return name } }});
function updateStyle (oldVnode, vnode) { const data = vnode.data; const oldData = oldVnode.data;
if (isUndef(data.staticStyle) && isUndef(data.style) && isUndef(oldData.staticStyle) && isUndef(oldData.style) ) { return }
let cur, name; const el = vnode.elm; const oldStaticStyle = oldData.staticStyle; const oldStyleBinding = oldData.normalizedStyle || oldData.style || {};
// if static style exists, stylebinding already merged into it when doing normalizeStyleData
const oldStyle = oldStaticStyle || oldStyleBinding;
const style = normalizeStyleBinding(vnode.data.style) || {};
// store normalized style under a different key for next diff
// make sure to clone it if it's reactive, since the user likely wants
// to mutate it.
vnode.data.normalizedStyle = isDef(style.__ob__) ? extend({}, style) : style;
const newStyle = getStyle(vnode, true);
for (name in oldStyle) { if (isUndef(newStyle[name])) { setProp(el, name, ''); } } for (name in newStyle) { cur = newStyle[name]; if (cur !== oldStyle[name]) { // ie9 setting to null has no effect, must use empty string
setProp(el, name, cur == null ? '' : cur); } }}
var style = { create: updateStyle, update: updateStyle};
/* */
const whitespaceRE = /\s+/;
/** * Add class with compatibility for SVG since classList is not supported on * SVG elements in IE */function addClass (el, cls) { /* istanbul ignore if */ if (!cls || !(cls = cls.trim())) { return }
/* istanbul ignore else */ if (el.classList) { if (cls.indexOf(' ') > -1) { cls.split(whitespaceRE).forEach(c => el.classList.add(c)); } else { el.classList.add(cls); } } else { const cur = ` ${el.getAttribute('class') || ''} `; if (cur.indexOf(' ' + cls + ' ') < 0) { el.setAttribute('class', (cur + cls).trim()); } }}
/** * Remove class with compatibility for SVG since classList is not supported on * SVG elements in IE */function removeClass (el, cls) { /* istanbul ignore if */ if (!cls || !(cls = cls.trim())) { return }
/* istanbul ignore else */ if (el.classList) { if (cls.indexOf(' ') > -1) { cls.split(whitespaceRE).forEach(c => el.classList.remove(c)); } else { el.classList.remove(cls); } if (!el.classList.length) { el.removeAttribute('class'); } } else { let cur = ` ${el.getAttribute('class') || ''} `; const tar = ' ' + cls + ' '; while (cur.indexOf(tar) >= 0) { cur = cur.replace(tar, ' '); } cur = cur.trim(); if (cur) { el.setAttribute('class', cur); } else { el.removeAttribute('class'); } }}
/* */
function resolveTransition (def$$1) { if (!def$$1) { return } /* istanbul ignore else */ if (typeof def$$1 === 'object') { const res = {}; if (def$$1.css !== false) { extend(res, autoCssTransition(def$$1.name || 'v')); } extend(res, def$$1); return res } else if (typeof def$$1 === 'string') { return autoCssTransition(def$$1) }}
const autoCssTransition = cached(name => { return { enterClass: `${name}-enter`, enterToClass: `${name}-enter-to`, enterActiveClass: `${name}-enter-active`, leaveClass: `${name}-leave`, leaveToClass: `${name}-leave-to`, leaveActiveClass: `${name}-leave-active` }});
const hasTransition = inBrowser && !isIE9;const TRANSITION = 'transition';const ANIMATION = 'animation';
// Transition property/event sniffing
let transitionProp = 'transition';let transitionEndEvent = 'transitionend';let animationProp = 'animation';let animationEndEvent = 'animationend';if (hasTransition) { /* istanbul ignore if */ if (window.ontransitionend === undefined && window.onwebkittransitionend !== undefined ) { transitionProp = 'WebkitTransition'; transitionEndEvent = 'webkitTransitionEnd'; } if (window.onanimationend === undefined && window.onwebkitanimationend !== undefined ) { animationProp = 'WebkitAnimation'; animationEndEvent = 'webkitAnimationEnd'; }}
// binding to window is necessary to make hot reload work in IE in strict mode
const raf = inBrowser ? window.requestAnimationFrame ? window.requestAnimationFrame.bind(window) : setTimeout : /* istanbul ignore next */ fn => fn();
function nextFrame (fn) { raf(() => { raf(fn); });}
function addTransitionClass (el, cls) { const transitionClasses = el._transitionClasses || (el._transitionClasses = []); if (transitionClasses.indexOf(cls) < 0) { transitionClasses.push(cls); addClass(el, cls); }}
function removeTransitionClass (el, cls) { if (el._transitionClasses) { remove(el._transitionClasses, cls); } removeClass(el, cls);}
function whenTransitionEnds ( el, expectedType, cb) { const { type, timeout, propCount } = getTransitionInfo(el, expectedType); if (!type) return cb() const event = type === TRANSITION ? transitionEndEvent : animationEndEvent; let ended = 0; const end = () => { el.removeEventListener(event, onEnd); cb(); }; const onEnd = e => { if (e.target === el) { if (++ended >= propCount) { end(); } } }; setTimeout(() => { if (ended < propCount) { end(); } }, timeout + 1); el.addEventListener(event, onEnd);}
const transformRE = /\b(transform|all)(,|$)/;
function getTransitionInfo (el, expectedType) { const styles = window.getComputedStyle(el); // JSDOM may return undefined for transition properties
const transitionDelays = (styles[transitionProp + 'Delay'] || '').split(', '); const transitionDurations = (styles[transitionProp + 'Duration'] || '').split(', '); const transitionTimeout = getTimeout(transitionDelays, transitionDurations); const animationDelays = (styles[animationProp + 'Delay'] || '').split(', '); const animationDurations = (styles[animationProp + 'Duration'] || '').split(', '); const animationTimeout = getTimeout(animationDelays, animationDurations);
let type; let timeout = 0; let propCount = 0; /* istanbul ignore if */ if (expectedType === TRANSITION) { if (transitionTimeout > 0) { type = TRANSITION; timeout = transitionTimeout; propCount = transitionDurations.length; } } else if (expectedType === ANIMATION) { if (animationTimeout > 0) { type = ANIMATION; timeout = animationTimeout; propCount = animationDurations.length; } } else { timeout = Math.max(transitionTimeout, animationTimeout); type = timeout > 0 ? transitionTimeout > animationTimeout ? TRANSITION : ANIMATION : null; propCount = type ? type === TRANSITION ? transitionDurations.length : animationDurations.length : 0; } const hasTransform = type === TRANSITION && transformRE.test(styles[transitionProp + 'Property']); return { type, timeout, propCount, hasTransform }}
function getTimeout (delays, durations) { /* istanbul ignore next */ while (delays.length < durations.length) { delays = delays.concat(delays); }
return Math.max.apply(null, durations.map((d, i) => { return toMs(d) + toMs(delays[i]) }))}
// Old versions of Chromium (below 61.0.3163.100) formats floating pointer numbers
// in a locale-dependent way, using a comma instead of a dot.
// If comma is not replaced with a dot, the input will be rounded down (i.e. acting
// as a floor function) causing unexpected behaviors
function toMs (s) { return Number(s.slice(0, -1).replace(',', '.')) * 1000}
/* */
function enter (vnode, toggleDisplay) { const el = vnode.elm;
// call leave callback now
if (isDef(el._leaveCb)) { el._leaveCb.cancelled = true; el._leaveCb(); }
const data = resolveTransition(vnode.data.transition); if (isUndef(data)) { return }
/* istanbul ignore if */ if (isDef(el._enterCb) || el.nodeType !== 1) { return }
const { css, type, enterClass, enterToClass, enterActiveClass, appearClass, appearToClass, appearActiveClass, beforeEnter, enter, afterEnter, enterCancelled, beforeAppear, appear, afterAppear, appearCancelled, duration } = data;
// activeInstance will always be the <transition> component managing this
// transition. One edge case to check is when the <transition> is placed
// as the root node of a child component. In that case we need to check
// <transition>'s parent for appear check.
let context = activeInstance; let transitionNode = activeInstance.$vnode; while (transitionNode && transitionNode.parent) { context = transitionNode.context; transitionNode = transitionNode.parent; }
const isAppear = !context._isMounted || !vnode.isRootInsert;
if (isAppear && !appear && appear !== '') { return }
const startClass = isAppear && appearClass ? appearClass : enterClass; const activeClass = isAppear && appearActiveClass ? appearActiveClass : enterActiveClass; const toClass = isAppear && appearToClass ? appearToClass : enterToClass;
const beforeEnterHook = isAppear ? (beforeAppear || beforeEnter) : beforeEnter; const enterHook = isAppear ? (typeof appear === 'function' ? appear : enter) : enter; const afterEnterHook = isAppear ? (afterAppear || afterEnter) : afterEnter; const enterCancelledHook = isAppear ? (appearCancelled || enterCancelled) : enterCancelled;
const explicitEnterDuration = toNumber( isObject(duration) ? duration.enter : duration );
if (explicitEnterDuration != null) { checkDuration(explicitEnterDuration, 'enter', vnode); }
const expectsCSS = css !== false && !isIE9; const userWantsControl = getHookArgumentsLength(enterHook);
const cb = el._enterCb = once(() => { if (expectsCSS) { removeTransitionClass(el, toClass); removeTransitionClass(el, activeClass); } if (cb.cancelled) { if (expectsCSS) { removeTransitionClass(el, startClass); } enterCancelledHook && enterCancelledHook(el); } else { afterEnterHook && afterEnterHook(el); } el._enterCb = null; });
if (!vnode.data.show) { // remove pending leave element on enter by injecting an insert hook
mergeVNodeHook(vnode, 'insert', () => { const parent = el.parentNode; const pendingNode = parent && parent._pending && parent._pending[vnode.key]; if (pendingNode && pendingNode.tag === vnode.tag && pendingNode.elm._leaveCb ) { pendingNode.elm._leaveCb(); } enterHook && enterHook(el, cb); }); }
// start enter transition
beforeEnterHook && beforeEnterHook(el); if (expectsCSS) { addTransitionClass(el, startClass); addTransitionClass(el, activeClass); nextFrame(() => { removeTransitionClass(el, startClass); if (!cb.cancelled) { addTransitionClass(el, toClass); if (!userWantsControl) { if (isValidDuration(explicitEnterDuration)) { setTimeout(cb, explicitEnterDuration); } else { whenTransitionEnds(el, type, cb); } } } }); }
if (vnode.data.show) { toggleDisplay && toggleDisplay(); enterHook && enterHook(el, cb); }
if (!expectsCSS && !userWantsControl) { cb(); }}
function leave (vnode, rm) { const el = vnode.elm;
// call enter callback now
if (isDef(el._enterCb)) { el._enterCb.cancelled = true; el._enterCb(); }
const data = resolveTransition(vnode.data.transition); if (isUndef(data) || el.nodeType !== 1) { return rm() }
/* istanbul ignore if */ if (isDef(el._leaveCb)) { return }
const { css, type, leaveClass, leaveToClass, leaveActiveClass, beforeLeave, leave, afterLeave, leaveCancelled, delayLeave, duration } = data;
const expectsCSS = css !== false && !isIE9; const userWantsControl = getHookArgumentsLength(leave);
const explicitLeaveDuration = toNumber( isObject(duration) ? duration.leave : duration );
if (isDef(explicitLeaveDuration)) { checkDuration(explicitLeaveDuration, 'leave', vnode); }
const cb = el._leaveCb = once(() => { if (el.parentNode && el.parentNode._pending) { el.parentNode._pending[vnode.key] = null; } if (expectsCSS) { removeTransitionClass(el, leaveToClass); removeTransitionClass(el, leaveActiveClass); } if (cb.cancelled) { if (expectsCSS) { removeTransitionClass(el, leaveClass); } leaveCancelled && leaveCancelled(el); } else { rm(); afterLeave && afterLeave(el); } el._leaveCb = null; });
if (delayLeave) { delayLeave(performLeave); } else { performLeave(); }
function performLeave () { // the delayed leave may have already been cancelled
if (cb.cancelled) { return } // record leaving element
if (!vnode.data.show && el.parentNode) { (el.parentNode._pending || (el.parentNode._pending = {}))[(vnode.key)] = vnode; } beforeLeave && beforeLeave(el); if (expectsCSS) { addTransitionClass(el, leaveClass); addTransitionClass(el, leaveActiveClass); nextFrame(() => { removeTransitionClass(el, leaveClass); if (!cb.cancelled) { addTransitionClass(el, leaveToClass); if (!userWantsControl) { if (isValidDuration(explicitLeaveDuration)) { setTimeout(cb, explicitLeaveDuration); } else { whenTransitionEnds(el, type, cb); } } } }); } leave && leave(el, cb); if (!expectsCSS && !userWantsControl) { cb(); } }}
// only used in dev mode
function checkDuration (val, name, vnode) { if (typeof val !== 'number') { warn( `<transition> explicit ${name} duration is not a valid number - ` + `got ${JSON.stringify(val)}.`, vnode.context ); } else if (isNaN(val)) { warn( `<transition> explicit ${name} duration is NaN - ` + 'the duration expression might be incorrect.', vnode.context ); }}
function isValidDuration (val) { return typeof val === 'number' && !isNaN(val)}
/** * Normalize a transition hook's argument length. The hook may be: * - a merged hook (invoker) with the original in .fns * - a wrapped component method (check ._length) * - a plain function (.length) */function getHookArgumentsLength (fn) { if (isUndef(fn)) { return false } const invokerFns = fn.fns; if (isDef(invokerFns)) { // invoker
return getHookArgumentsLength( Array.isArray(invokerFns) ? invokerFns[0] : invokerFns ) } else { return (fn._length || fn.length) > 1 }}
function _enter (_, vnode) { if (vnode.data.show !== true) { enter(vnode); }}
var transition = inBrowser ? { create: _enter, activate: _enter, remove (vnode, rm) { /* istanbul ignore else */ if (vnode.data.show !== true) { leave(vnode, rm); } else { rm(); } }} : {};
var platformModules = [ attrs, klass, events, domProps, style, transition];
/* */
// the directive module should be applied last, after all
// built-in modules have been applied.
const modules = platformModules.concat(baseModules);
const patch = createPatchFunction({ nodeOps, modules });
/** * Not type checking this file because flow doesn't like attaching * properties to Elements. */
/* istanbul ignore if */if (isIE9) { // http://www.matts411.com/post/internet-explorer-9-oninput/
document.addEventListener('selectionchange', () => { const el = document.activeElement; if (el && el.vmodel) { trigger(el, 'input'); } });}
const directive = { inserted (el, binding, vnode, oldVnode) { if (vnode.tag === 'select') { // #6903
if (oldVnode.elm && !oldVnode.elm._vOptions) { mergeVNodeHook(vnode, 'postpatch', () => { directive.componentUpdated(el, binding, vnode); }); } else { setSelected(el, binding, vnode.context); } el._vOptions = [].map.call(el.options, getValue); } else if (vnode.tag === 'textarea' || isTextInputType(el.type)) { el._vModifiers = binding.modifiers; if (!binding.modifiers.lazy) { el.addEventListener('compositionstart', onCompositionStart); el.addEventListener('compositionend', onCompositionEnd); // Safari < 10.2 & UIWebView doesn't fire compositionend when
// switching focus before confirming composition choice
// this also fixes the issue where some browsers e.g. iOS Chrome
// fires "change" instead of "input" on autocomplete.
el.addEventListener('change', onCompositionEnd); /* istanbul ignore if */ if (isIE9) { el.vmodel = true; } } } },
componentUpdated (el, binding, vnode) { if (vnode.tag === 'select') { setSelected(el, binding, vnode.context); // in case the options rendered by v-for have changed,
// it's possible that the value is out-of-sync with the rendered options.
// detect such cases and filter out values that no longer has a matching
// option in the DOM.
const prevOptions = el._vOptions; const curOptions = el._vOptions = [].map.call(el.options, getValue); if (curOptions.some((o, i) => !looseEqual(o, prevOptions[i]))) { // trigger change event if
// no matching option found for at least one value
const needReset = el.multiple ? binding.value.some(v => hasNoMatchingOption(v, curOptions)) : binding.value !== binding.oldValue && hasNoMatchingOption(binding.value, curOptions); if (needReset) { trigger(el, 'change'); } } } }};
function setSelected (el, binding, vm) { actuallySetSelected(el, binding, vm); /* istanbul ignore if */ if (isIE || isEdge) { setTimeout(() => { actuallySetSelected(el, binding, vm); }, 0); }}
function actuallySetSelected (el, binding, vm) { const value = binding.value; const isMultiple = el.multiple; if (isMultiple && !Array.isArray(value)) { warn( `<select multiple v-model="${binding.expression}"> ` + `expects an Array value for its binding, but got ${ Object.prototype.toString.call(value).slice(8, -1) }`,
vm ); return } let selected, option; for (let i = 0, l = el.options.length; i < l; i++) { option = el.options[i]; if (isMultiple) { selected = looseIndexOf(value, getValue(option)) > -1; if (option.selected !== selected) { option.selected = selected; } } else { if (looseEqual(getValue(option), value)) { if (el.selectedIndex !== i) { el.selectedIndex = i; } return } } } if (!isMultiple) { el.selectedIndex = -1; }}
function hasNoMatchingOption (value, options) { return options.every(o => !looseEqual(o, value))}
function getValue (option) { return '_value' in option ? option._value : option.value}
function onCompositionStart (e) { e.target.composing = true;}
function onCompositionEnd (e) { // prevent triggering an input event for no reason
if (!e.target.composing) return e.target.composing = false; trigger(e.target, 'input');}
function trigger (el, type) { const e = document.createEvent('HTMLEvents'); e.initEvent(type, true, true); el.dispatchEvent(e);}
/* */
// recursively search for possible transition defined inside the component root
function locateNode (vnode) { return vnode.componentInstance && (!vnode.data || !vnode.data.transition) ? locateNode(vnode.componentInstance._vnode) : vnode}
var show = { bind (el, { value }, vnode) { vnode = locateNode(vnode); const transition$$1 = vnode.data && vnode.data.transition; const originalDisplay = el.__vOriginalDisplay = el.style.display === 'none' ? '' : el.style.display; if (value && transition$$1) { vnode.data.show = true; enter(vnode, () => { el.style.display = originalDisplay; }); } else { el.style.display = value ? originalDisplay : 'none'; } },
update (el, { value, oldValue }, vnode) { /* istanbul ignore if */ if (!value === !oldValue) return vnode = locateNode(vnode); const transition$$1 = vnode.data && vnode.data.transition; if (transition$$1) { vnode.data.show = true; if (value) { enter(vnode, () => { el.style.display = el.__vOriginalDisplay; }); } else { leave(vnode, () => { el.style.display = 'none'; }); } } else { el.style.display = value ? el.__vOriginalDisplay : 'none'; } },
unbind ( el, binding, vnode, oldVnode, isDestroy ) { if (!isDestroy) { el.style.display = el.__vOriginalDisplay; } }};
var platformDirectives = { model: directive, show};
/* */
const transitionProps = { name: String, appear: Boolean, css: Boolean, mode: String, type: String, enterClass: String, leaveClass: String, enterToClass: String, leaveToClass: String, enterActiveClass: String, leaveActiveClass: String, appearClass: String, appearActiveClass: String, appearToClass: String, duration: [Number, String, Object]};
// in case the child is also an abstract component, e.g. <keep-alive>
// we want to recursively retrieve the real component to be rendered
function getRealChild (vnode) { const compOptions = vnode && vnode.componentOptions; if (compOptions && compOptions.Ctor.options.abstract) { return getRealChild(getFirstComponentChild(compOptions.children)) } else { return vnode }}
function extractTransitionData (comp) { const data = {}; const options = comp.$options; // props
for (const key in options.propsData) { data[key] = comp[key]; } // events.
// extract listeners and pass them directly to the transition methods
const listeners = options._parentListeners; for (const key in listeners) { data[camelize(key)] = listeners[key]; } return data}
function placeholder (h, rawChild) { if (/\d-keep-alive$/.test(rawChild.tag)) { return h('keep-alive', { props: rawChild.componentOptions.propsData }) }}
function hasParentTransition (vnode) { while ((vnode = vnode.parent)) { if (vnode.data.transition) { return true } }}
function isSameChild (child, oldChild) { return oldChild.key === child.key && oldChild.tag === child.tag}
const isNotTextNode = (c) => c.tag || isAsyncPlaceholder(c);
const isVShowDirective = d => d.name === 'show';
var Transition = { name: 'transition', props: transitionProps, abstract: true,
render (h) { let children = this.$slots.default; if (!children) { return }
// filter out text nodes (possible whitespaces)
children = children.filter(isNotTextNode); /* istanbul ignore if */ if (!children.length) { return }
// warn multiple elements
if (children.length > 1) { warn( '<transition> can only be used on a single element. Use ' + '<transition-group> for lists.', this.$parent ); }
const mode = this.mode;
// warn invalid mode
if (mode && mode !== 'in-out' && mode !== 'out-in' ) { warn( 'invalid <transition> mode: ' + mode, this.$parent ); }
const rawChild = children[0];
// if this is a component root node and the component's
// parent container node also has transition, skip.
if (hasParentTransition(this.$vnode)) { return rawChild }
// apply transition data to child
// use getRealChild() to ignore abstract components e.g. keep-alive
const child = getRealChild(rawChild); /* istanbul ignore if */ if (!child) { return rawChild }
if (this._leaving) { return placeholder(h, rawChild) }
// ensure a key that is unique to the vnode type and to this transition
// component instance. This key will be used to remove pending leaving nodes
// during entering.
const id = `__transition-${this._uid}-`; child.key = child.key == null ? child.isComment ? id + 'comment' : id + child.tag : isPrimitive(child.key) ? (String(child.key).indexOf(id) === 0 ? child.key : id + child.key) : child.key;
const data = (child.data || (child.data = {})).transition = extractTransitionData(this); const oldRawChild = this._vnode; const oldChild = getRealChild(oldRawChild);
// mark v-show
// so that the transition module can hand over the control to the directive
if (child.data.directives && child.data.directives.some(isVShowDirective)) { child.data.show = true; }
if ( oldChild && oldChild.data && !isSameChild(child, oldChild) && !isAsyncPlaceholder(oldChild) && // #6687 component root is a comment node
!(oldChild.componentInstance && oldChild.componentInstance._vnode.isComment) ) { // replace old child transition data with fresh one
// important for dynamic transitions!
const oldData = oldChild.data.transition = extend({}, data); // handle transition mode
if (mode === 'out-in') { // return placeholder node and queue update when leave finishes
this._leaving = true; mergeVNodeHook(oldData, 'afterLeave', () => { this._leaving = false; this.$forceUpdate(); }); return placeholder(h, rawChild) } else if (mode === 'in-out') { if (isAsyncPlaceholder(child)) { return oldRawChild } let delayedLeave; const performLeave = () => { delayedLeave(); }; mergeVNodeHook(data, 'afterEnter', performLeave); mergeVNodeHook(data, 'enterCancelled', performLeave); mergeVNodeHook(oldData, 'delayLeave', leave => { delayedLeave = leave; }); } }
return rawChild }};
/* */
const props = extend({ tag: String, moveClass: String}, transitionProps);
delete props.mode;
var TransitionGroup = { props,
beforeMount () { const update = this._update; this._update = (vnode, hydrating) => { const restoreActiveInstance = setActiveInstance(this); // force removing pass
this.__patch__( this._vnode, this.kept, false, // hydrating
true // removeOnly (!important, avoids unnecessary moves)
); this._vnode = this.kept; restoreActiveInstance(); update.call(this, vnode, hydrating); }; },
render (h) { const tag = this.tag || this.$vnode.data.tag || 'span'; const map = Object.create(null); const prevChildren = this.prevChildren = this.children; const rawChildren = this.$slots.default || []; const children = this.children = []; const transitionData = extractTransitionData(this);
for (let i = 0; i < rawChildren.length; i++) { const c = rawChildren[i]; if (c.tag) { if (c.key != null && String(c.key).indexOf('__vlist') !== 0) { children.push(c); map[c.key] = c ;(c.data || (c.data = {})).transition = transitionData; } else { const opts = c.componentOptions; const name = opts ? (opts.Ctor.options.name || opts.tag || '') : c.tag; warn(`<transition-group> children must be keyed: <${name}>`); } } }
if (prevChildren) { const kept = []; const removed = []; for (let i = 0; i < prevChildren.length; i++) { const c = prevChildren[i]; c.data.transition = transitionData; c.data.pos = c.elm.getBoundingClientRect(); if (map[c.key]) { kept.push(c); } else { removed.push(c); } } this.kept = h(tag, null, kept); this.removed = removed; }
return h(tag, null, children) },
updated () { const children = this.prevChildren; const moveClass = this.moveClass || ((this.name || 'v') + '-move'); if (!children.length || !this.hasMove(children[0].elm, moveClass)) { return }
// we divide the work into three loops to avoid mixing DOM reads and writes
// in each iteration - which helps prevent layout thrashing.
children.forEach(callPendingCbs); children.forEach(recordPosition); children.forEach(applyTranslation);
// force reflow to put everything in position
// assign to this to avoid being removed in tree-shaking
// $flow-disable-line
this._reflow = document.body.offsetHeight;
children.forEach((c) => { if (c.data.moved) { const el = c.elm; const s = el.style; addTransitionClass(el, moveClass); s.transform = s.WebkitTransform = s.transitionDuration = ''; el.addEventListener(transitionEndEvent, el._moveCb = function cb (e) { if (e && e.target !== el) { return } if (!e || /transform$/.test(e.propertyName)) { el.removeEventListener(transitionEndEvent, cb); el._moveCb = null; removeTransitionClass(el, moveClass); } }); } }); },
methods: { hasMove (el, moveClass) { /* istanbul ignore if */ if (!hasTransition) { return false } /* istanbul ignore if */ if (this._hasMove) { return this._hasMove } // Detect whether an element with the move class applied has
// CSS transitions. Since the element may be inside an entering
// transition at this very moment, we make a clone of it and remove
// all other transition classes applied to ensure only the move class
// is applied.
const clone = el.cloneNode(); if (el._transitionClasses) { el._transitionClasses.forEach((cls) => { removeClass(clone, cls); }); } addClass(clone, moveClass); clone.style.display = 'none'; this.$el.appendChild(clone); const info = getTransitionInfo(clone); this.$el.removeChild(clone); return (this._hasMove = info.hasTransform) } }};
function callPendingCbs (c) { /* istanbul ignore if */ if (c.elm._moveCb) { c.elm._moveCb(); } /* istanbul ignore if */ if (c.elm._enterCb) { c.elm._enterCb(); }}
function recordPosition (c) { c.data.newPos = c.elm.getBoundingClientRect();}
function applyTranslation (c) { const oldPos = c.data.pos; const newPos = c.data.newPos; const dx = oldPos.left - newPos.left; const dy = oldPos.top - newPos.top; if (dx || dy) { c.data.moved = true; const s = c.elm.style; s.transform = s.WebkitTransform = `translate(${dx}px,${dy}px)`; s.transitionDuration = '0s'; }}
var platformComponents = { Transition, TransitionGroup};
/* */
// install platform specific utils
Vue.config.mustUseProp = mustUseProp;Vue.config.isReservedTag = isReservedTag;Vue.config.isReservedAttr = isReservedAttr;Vue.config.getTagNamespace = getTagNamespace;Vue.config.isUnknownElement = isUnknownElement;
// install platform runtime directives & components
extend(Vue.options.directives, platformDirectives);extend(Vue.options.components, platformComponents);
// install platform patch function
Vue.prototype.__patch__ = inBrowser ? patch : noop;
// public mount method
Vue.prototype.$mount = function ( el, hydrating) { el = el && inBrowser ? query(el) : undefined; return mountComponent(this, el, hydrating)};
// devtools global hook
/* istanbul ignore next */if (inBrowser) { setTimeout(() => { if (config.devtools) { if (devtools) { devtools.emit('init', Vue); } else { console[console.info ? 'info' : 'log']( 'Download the Vue Devtools extension for a better development experience:\n' + 'https://github.com/vuejs/vue-devtools' ); } } if (config.productionTip !== false && typeof console !== 'undefined' ) { console[console.info ? 'info' : 'log']( `You are running Vue in development mode.\n` + `Make sure to turn on production mode when deploying for production.\n` + `See more tips at https://vuejs.org/guide/deployment.html` ); } }, 0);}
/* */
const defaultTagRE = /\{\{((?:.|\r?\n)+?)\}\}/g;const regexEscapeRE = /[-.*+?^${}()|[\]\/\\]/g;
const buildRegex = cached(delimiters => { const open = delimiters[0].replace(regexEscapeRE, '\\$&'); const close = delimiters[1].replace(regexEscapeRE, '\\$&'); return new RegExp(open + '((?:.|\\n)+?)' + close, 'g')});
function parseText ( text, delimiters) { const tagRE = delimiters ? buildRegex(delimiters) : defaultTagRE; if (!tagRE.test(text)) { return } const tokens = []; const rawTokens = []; let lastIndex = tagRE.lastIndex = 0; let match, index, tokenValue; while ((match = tagRE.exec(text))) { index = match.index; // push text token
if (index > lastIndex) { rawTokens.push(tokenValue = text.slice(lastIndex, index)); tokens.push(JSON.stringify(tokenValue)); } // tag token
const exp = parseFilters(match[1].trim()); tokens.push(`_s(${exp})`); rawTokens.push({ '@binding': exp }); lastIndex = index + match[0].length; } if (lastIndex < text.length) { rawTokens.push(tokenValue = text.slice(lastIndex)); tokens.push(JSON.stringify(tokenValue)); } return { expression: tokens.join('+'), tokens: rawTokens }}
/* */
function transformNode (el, options) { const warn = options.warn || baseWarn; const staticClass = getAndRemoveAttr(el, 'class'); if (staticClass) { const res = parseText(staticClass, options.delimiters); if (res) { warn( `class="${staticClass}": ` + 'Interpolation inside attributes has been removed. ' + 'Use v-bind or the colon shorthand instead. For example, ' + 'instead of <div class="{{ val }}">, use <div :class="val">.', el.rawAttrsMap['class'] ); } } if (staticClass) { el.staticClass = JSON.stringify(staticClass); } const classBinding = getBindingAttr(el, 'class', false /* getStatic */); if (classBinding) { el.classBinding = classBinding; }}
function genData (el) { let data = ''; if (el.staticClass) { data += `staticClass:${el.staticClass},`; } if (el.classBinding) { data += `class:${el.classBinding},`; } return data}
var klass$1 = { staticKeys: ['staticClass'], transformNode, genData};
/* */
function transformNode$1 (el, options) { const warn = options.warn || baseWarn; const staticStyle = getAndRemoveAttr(el, 'style'); if (staticStyle) { /* istanbul ignore if */ { const res = parseText(staticStyle, options.delimiters); if (res) { warn( `style="${staticStyle}": ` + 'Interpolation inside attributes has been removed. ' + 'Use v-bind or the colon shorthand instead. For example, ' + 'instead of <div style="{{ val }}">, use <div :style="val">.', el.rawAttrsMap['style'] ); } } el.staticStyle = JSON.stringify(parseStyleText(staticStyle)); }
const styleBinding = getBindingAttr(el, 'style', false /* getStatic */); if (styleBinding) { el.styleBinding = styleBinding; }}
function genData$1 (el) { let data = ''; if (el.staticStyle) { data += `staticStyle:${el.staticStyle},`; } if (el.styleBinding) { data += `style:(${el.styleBinding}),`; } return data}
var style$1 = { staticKeys: ['staticStyle'], transformNode: transformNode$1, genData: genData$1};
/* */
let decoder;
var he = { decode (html) { decoder = decoder || document.createElement('div'); decoder.innerHTML = html; return decoder.textContent }};
/* */
const isUnaryTag = makeMap( 'area,base,br,col,embed,frame,hr,img,input,isindex,keygen,' + 'link,meta,param,source,track,wbr');
// Elements that you can, intentionally, leave open
// (and which close themselves)
const canBeLeftOpenTag = makeMap( 'colgroup,dd,dt,li,options,p,td,tfoot,th,thead,tr,source');
// HTML5 tags https://html.spec.whatwg.org/multipage/indices.html#elements-3
// Phrasing Content https://html.spec.whatwg.org/multipage/dom.html#phrasing-content
const 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');
/** * Not type-checking this file because it's mostly vendor code. */
// Regular Expressions for parsing tags and attributes
const attribute = /^\s*([^\s"'<>\/=]+)(?:\s*(=)\s*(?:"([^"]*)"+|'([^']*)'+|([^\s"'=<>`]+)))?/;const dynamicArgAttribute = /^\s*((?:v-[\w-]+:|@|:|#)\[[^=]+?\][^\s"'<>\/=]*)(?:\s*(=)\s*(?:"([^"]*)"+|'([^']*)'+|([^\s"'=<>`]+)))?/;const ncname = `[a-zA-Z_][\\-\\.0-9_a-zA-Z${unicodeRegExp.source}]*`;const qnameCapture = `((?:${ncname}\\:)?${ncname})`;const startTagOpen = new RegExp(`^<${qnameCapture}`);const startTagClose = /^\s*(\/?)>/;const endTag = new RegExp(`^<\\/${qnameCapture}[^>]*>`);const doctype = /^<!DOCTYPE [^>]+>/i;// #7298: escape - to avoid being passed as HTML comment when inlined in page
const comment = /^<!\--/;const conditionalComment = /^<!\[/;
// Special Elements (can contain anything)
const isPlainTextElement = makeMap('script,style,textarea', true);const reCache = {};
const decodingMap = { '<': '<', '>': '>', '"': '"', '&': '&', ' ': '\n', '	': '\t', ''': "'"};const encodedAttr = /&(?:lt|gt|quot|amp|#39);/g;const encodedAttrWithNewLines = /&(?:lt|gt|quot|amp|#39|#10|#9);/g;
// #5992
const isIgnoreNewlineTag = makeMap('pre,textarea', true);const shouldIgnoreFirstNewline = (tag, html) => tag && isIgnoreNewlineTag(tag) && html[0] === '\n';
function decodeAttr (value, shouldDecodeNewlines) { const re = shouldDecodeNewlines ? encodedAttrWithNewLines : encodedAttr; return value.replace(re, match => decodingMap[match])}
function parseHTML (html, options) { const stack = []; const expectHTML = options.expectHTML; const isUnaryTag$$1 = options.isUnaryTag || no; const canBeLeftOpenTag$$1 = options.canBeLeftOpenTag || no; let index = 0; let last, lastTag; while (html) { last = html; // Make sure we're not in a plaintext content element like script/style
if (!lastTag || !isPlainTextElement(lastTag)) { let textEnd = html.indexOf('<'); if (textEnd === 0) { // Comment:
if (comment.test(html)) { const commentEnd = html.indexOf('-->');
if (commentEnd >= 0) { if (options.shouldKeepComment) { options.comment(html.substring(4, commentEnd), index, index + commentEnd + 3); } advance(commentEnd + 3); continue } }
// http://en.wikipedia.org/wiki/Conditional_comment#Downlevel-revealed_conditional_comment
if (conditionalComment.test(html)) { const conditionalEnd = html.indexOf(']>');
if (conditionalEnd >= 0) { advance(conditionalEnd + 2); continue } }
// Doctype:
const doctypeMatch = html.match(doctype); if (doctypeMatch) { advance(doctypeMatch[0].length); continue }
// End tag:
const endTagMatch = html.match(endTag); if (endTagMatch) { const curIndex = index; advance(endTagMatch[0].length); parseEndTag(endTagMatch[1], curIndex, index); continue }
// Start tag:
const startTagMatch = parseStartTag(); if (startTagMatch) { handleStartTag(startTagMatch); if (shouldIgnoreFirstNewline(startTagMatch.tagName, html)) { advance(1); } continue } }
let text, rest, next; if (textEnd >= 0) { rest = html.slice(textEnd); while ( !endTag.test(rest) && !startTagOpen.test(rest) && !comment.test(rest) && !conditionalComment.test(rest) ) { // < in plain text, be forgiving and treat it as text
next = rest.indexOf('<', 1); if (next < 0) break textEnd += next; rest = html.slice(textEnd); } text = html.substring(0, textEnd); }
if (textEnd < 0) { text = html; }
if (text) { advance(text.length); }
if (options.chars && text) { options.chars(text, index - text.length, index); } } else { let endTagLength = 0; const stackedTag = lastTag.toLowerCase(); const reStackedTag = reCache[stackedTag] || (reCache[stackedTag] = new RegExp('([\\s\\S]*?)(</' + stackedTag + '[^>]*>)', 'i')); const rest = html.replace(reStackedTag, function (all, text, endTag) { endTagLength = endTag.length; if (!isPlainTextElement(stackedTag) && stackedTag !== 'noscript') { text = text .replace(/<!\--([\s\S]*?)-->/g, '$1') // #7298
.replace(/<!\[CDATA\[([\s\S]*?)]]>/g, '$1'); } if (shouldIgnoreFirstNewline(stackedTag, text)) { text = text.slice(1); } if (options.chars) { options.chars(text); } return '' }); index += html.length - rest.length; html = rest; parseEndTag(stackedTag, index - endTagLength, index); }
if (html === last) { options.chars && options.chars(html); if (!stack.length && options.warn) { options.warn(`Mal-formatted tag at end of template: "${html}"`, { start: index + html.length }); } break } }
// Clean up any remaining tags
parseEndTag();
function advance (n) { index += n; html = html.substring(n); }
function parseStartTag () { const start = html.match(startTagOpen); if (start) { const match = { tagName: start[1], attrs: [], start: index }; advance(start[0].length); let end, attr; while (!(end = html.match(startTagClose)) && (attr = html.match(dynamicArgAttribute) || html.match(attribute))) { attr.start = index; advance(attr[0].length); attr.end = index; match.attrs.push(attr); } if (end) { match.unarySlash = end[1]; advance(end[0].length); match.end = index; return match } } }
function handleStartTag (match) { const tagName = match.tagName; const unarySlash = match.unarySlash;
if (expectHTML) { if (lastTag === 'p' && isNonPhrasingTag(tagName)) { parseEndTag(lastTag); } if (canBeLeftOpenTag$$1(tagName) && lastTag === tagName) { parseEndTag(tagName); } }
const unary = isUnaryTag$$1(tagName) || !!unarySlash;
const l = match.attrs.length; const attrs = new Array(l); for (let i = 0; i < l; i++) { const args = match.attrs[i]; const value = args[3] || args[4] || args[5] || ''; const shouldDecodeNewlines = tagName === 'a' && args[1] === 'href' ? options.shouldDecodeNewlinesForHref : options.shouldDecodeNewlines; attrs[i] = { name: args[1], value: decodeAttr(value, shouldDecodeNewlines) }; if (options.outputSourceRange) { attrs[i].start = args.start + args[0].match(/^\s*/).length; attrs[i].end = args.end; } }
if (!unary) { stack.push({ tag: tagName, lowerCasedTag: tagName.toLowerCase(), attrs: attrs, start: match.start, end: match.end }); lastTag = tagName; }
if (options.start) { options.start(tagName, attrs, unary, match.start, match.end); } }
function parseEndTag (tagName, start, end) { let pos, lowerCasedTagName; if (start == null) start = index; if (end == null) end = index;
// Find the closest opened tag of the same type
if (tagName) { lowerCasedTagName = tagName.toLowerCase(); for (pos = stack.length - 1; pos >= 0; pos--) { if (stack[pos].lowerCasedTag === lowerCasedTagName) { break } } } else { // If no tag name is provided, clean shop
pos = 0; }
if (pos >= 0) { // Close all the open elements, up the stack
for (let i = stack.length - 1; i >= pos; i--) { if (i > pos || !tagName && options.warn ) { options.warn( `tag <${stack[i].tag}> has no matching end tag.`, { start: stack[i].start, end: stack[i].end } ); } if (options.end) { options.end(stack[i].tag, start, end); } }
// Remove the open elements from the stack
stack.length = pos; lastTag = pos && stack[pos - 1].tag; } else if (lowerCasedTagName === 'br') { if (options.start) { options.start(tagName, [], true, start, end); } } else if (lowerCasedTagName === 'p') { if (options.start) { options.start(tagName, [], false, start, end); } if (options.end) { options.end(tagName, start, end); } } }}
/* */
const onRE = /^@|^v-on:/;const dirRE = /^v-|^@|^:|^#/;const forAliasRE = /([\s\S]*?)\s+(?:in|of)\s+([\s\S]*)/;const forIteratorRE = /,([^,\}\]]*)(?:,([^,\}\]]*))?$/;const stripParensRE = /^\(|\)$/g;const dynamicArgRE = /^\[.*\]$/;
const argRE = /:(.*)$/;const bindRE = /^:|^\.|^v-bind:/;const modifierRE = /\.[^.\]]+(?=[^\]]*$)/g;
const slotRE = /^v-slot(:|$)|^#/;
const lineBreakRE = /[\r\n]/;const whitespaceRE$1 = /[ \f\t\r\n]+/g;
const invalidAttributeRE = /[\s"'<>\/=]/;
const decodeHTMLCached = cached(he.decode);
const emptySlotScopeToken = `_empty_`;
// configurable state
let warn$2;let delimiters;let transforms;let preTransforms;let postTransforms;let platformIsPreTag;let platformMustUseProp;let platformGetTagNamespace;let maybeComponent;
function createASTElement ( tag, attrs, parent) { return { type: 1, tag, attrsList: attrs, attrsMap: makeAttrsMap(attrs), rawAttrsMap: {}, parent, children: [] }}
/** * Convert HTML string to AST. */function parse ( template, options) { warn$2 = options.warn || baseWarn;
platformIsPreTag = options.isPreTag || no; platformMustUseProp = options.mustUseProp || no; platformGetTagNamespace = options.getTagNamespace || no; const isReservedTag = options.isReservedTag || no; maybeComponent = (el) => !!( el.component || el.attrsMap[':is'] || el.attrsMap['v-bind:is'] || !(el.attrsMap.is ? isReservedTag(el.attrsMap.is) : isReservedTag(el.tag)) ); transforms = pluckModuleFunction(options.modules, 'transformNode'); preTransforms = pluckModuleFunction(options.modules, 'preTransformNode'); postTransforms = pluckModuleFunction(options.modules, 'postTransformNode');
delimiters = options.delimiters;
const stack = []; const preserveWhitespace = options.preserveWhitespace !== false; const whitespaceOption = options.whitespace; let root; let currentParent; let inVPre = false; let inPre = false; let warned = false;
function warnOnce (msg, range) { if (!warned) { warned = true; warn$2(msg, range); } }
function closeElement (element) { trimEndingWhitespace(element); if (!inVPre && !element.processed) { element = processElement(element, options); } // tree management
if (!stack.length && element !== root) { // allow root elements with v-if, v-else-if and v-else
if (root.if && (element.elseif || element.else)) { { checkRootConstraints(element); } addIfCondition(root, { exp: element.elseif, block: element }); } else { warnOnce( `Component template should contain exactly one root element. ` + `If you are using v-if on multiple elements, ` + `use v-else-if to chain them instead.`, { start: element.start } ); } } if (currentParent && !element.forbidden) { if (element.elseif || element.else) { processIfConditions(element, currentParent); } else { if (element.slotScope) { // scoped slot
// keep it in the children list so that v-else(-if) conditions can
// find it as the prev node.
const name = element.slotTarget || '"default"' ;(currentParent.scopedSlots || (currentParent.scopedSlots = {}))[name] = element; } currentParent.children.push(element); element.parent = currentParent; } }
// final children cleanup
// filter out scoped slots
element.children = element.children.filter(c => !(c).slotScope); // remove trailing whitespace node again
trimEndingWhitespace(element);
// check pre state
if (element.pre) { inVPre = false; } if (platformIsPreTag(element.tag)) { inPre = false; } // apply post-transforms
for (let i = 0; i < postTransforms.length; i++) { postTransforms[i](element, options); } }
function trimEndingWhitespace (el) { // remove trailing whitespace node
if (!inPre) { let lastNode; while ( (lastNode = el.children[el.children.length - 1]) && lastNode.type === 3 && lastNode.text === ' ' ) { el.children.pop(); } } }
function checkRootConstraints (el) { if (el.tag === 'slot' || el.tag === 'template') { warnOnce( `Cannot use <${el.tag}> as component root element because it may ` + 'contain multiple nodes.', { start: el.start } ); } if (el.attrsMap.hasOwnProperty('v-for')) { warnOnce( 'Cannot use v-for on stateful component root element because ' + 'it renders multiple elements.', el.rawAttrsMap['v-for'] ); } }
parseHTML(template, { warn: warn$2, expectHTML: options.expectHTML, isUnaryTag: options.isUnaryTag, canBeLeftOpenTag: options.canBeLeftOpenTag, shouldDecodeNewlines: options.shouldDecodeNewlines, shouldDecodeNewlinesForHref: options.shouldDecodeNewlinesForHref, shouldKeepComment: options.comments, outputSourceRange: options.outputSourceRange, start (tag, attrs, unary, start, end) { // check namespace.
// inherit parent ns if there is one
const ns = (currentParent && currentParent.ns) || platformGetTagNamespace(tag);
// handle IE svg bug
/* istanbul ignore if */ if (isIE && ns === 'svg') { attrs = guardIESVGBug(attrs); }
let element = createASTElement(tag, attrs, currentParent); if (ns) { element.ns = ns; }
{ if (options.outputSourceRange) { element.start = start; element.end = end; element.rawAttrsMap = element.attrsList.reduce((cumulated, attr) => { cumulated[attr.name] = attr; return cumulated }, {}); } attrs.forEach(attr => { if (invalidAttributeRE.test(attr.name)) { warn$2( `Invalid dynamic argument expression: attribute names cannot contain ` + `spaces, quotes, <, >, / or =.`, { start: attr.start + attr.name.indexOf(`[`), end: attr.start + attr.name.length } ); } }); }
if (isForbiddenTag(element) && !isServerRendering()) { element.forbidden = true; warn$2( 'Templates should only be responsible for mapping the state to the ' + 'UI. Avoid placing tags with side-effects in your templates, such as ' + `<${tag}>` + ', as they will not be parsed.', { start: element.start } ); }
// apply pre-transforms
for (let i = 0; i < preTransforms.length; i++) { element = preTransforms[i](element, options) || element; }
if (!inVPre) { processPre(element); if (element.pre) { inVPre = true; } } if (platformIsPreTag(element.tag)) { inPre = true; } if (inVPre) { processRawAttrs(element); } else if (!element.processed) { // structural directives
processFor(element); processIf(element); processOnce(element); }
if (!root) { root = element; { checkRootConstraints(root); } }
if (!unary) { currentParent = element; stack.push(element); } else { closeElement(element); } },
end (tag, start, end) { const element = stack[stack.length - 1]; // pop stack
stack.length -= 1; currentParent = stack[stack.length - 1]; if (options.outputSourceRange) { element.end = end; } closeElement(element); },
chars (text, start, end) { if (!currentParent) { { if (text === template) { warnOnce( 'Component template requires a root element, rather than just text.', { start } ); } else if ((text = text.trim())) { warnOnce( `text "${text}" outside root element will be ignored.`, { start } ); } } return } // IE textarea placeholder bug
/* istanbul ignore if */ if (isIE && currentParent.tag === 'textarea' && currentParent.attrsMap.placeholder === text ) { return } const children = currentParent.children; if (inPre || text.trim()) { text = isTextTag(currentParent) ? text : decodeHTMLCached(text); } else if (!children.length) { // remove the whitespace-only node right after an opening tag
text = ''; } else if (whitespaceOption) { if (whitespaceOption === 'condense') { // in condense mode, remove the whitespace node if it contains
// line break, otherwise condense to a single space
text = lineBreakRE.test(text) ? '' : ' '; } else { text = ' '; } } else { text = preserveWhitespace ? ' ' : ''; } if (text) { if (!inPre && whitespaceOption === 'condense') { // condense consecutive whitespaces into single space
text = text.replace(whitespaceRE$1, ' '); } let res; let child; if (!inVPre && text !== ' ' && (res = parseText(text, delimiters))) { child = { type: 2, expression: res.expression, tokens: res.tokens, text }; } else if (text !== ' ' || !children.length || children[children.length - 1].text !== ' ') { child = { type: 3, text }; } if (child) { if (options.outputSourceRange) { child.start = start; child.end = end; } children.push(child); } } }, comment (text, start, end) { // adding anything as a sibling to the root node is forbidden
// comments should still be allowed, but ignored
if (currentParent) { const child = { type: 3, text, isComment: true }; if (options.outputSourceRange) { child.start = start; child.end = end; } currentParent.children.push(child); } } }); return root}
function processPre (el) { if (getAndRemoveAttr(el, 'v-pre') != null) { el.pre = true; }}
function processRawAttrs (el) { const list = el.attrsList; const len = list.length; if (len) { const attrs = el.attrs = new Array(len); for (let i = 0; i < len; i++) { attrs[i] = { name: list[i].name, value: JSON.stringify(list[i].value) }; if (list[i].start != null) { attrs[i].start = list[i].start; attrs[i].end = list[i].end; } } } else if (!el.pre) { // non root node in pre blocks with no attributes
el.plain = true; }}
function processElement ( element, options) { processKey(element);
// determine whether this is a plain element after
// removing structural attributes
element.plain = ( !element.key && !element.scopedSlots && !element.attrsList.length );
processRef(element); processSlotContent(element); processSlotOutlet(element); processComponent(element); for (let i = 0; i < transforms.length; i++) { element = transforms[i](element, options) || element; } processAttrs(element); return element}
function processKey (el) { const exp = getBindingAttr(el, 'key'); if (exp) { { if (el.tag === 'template') { warn$2( `<template> cannot be keyed. Place the key on real elements instead.`, getRawBindingAttr(el, 'key') ); } if (el.for) { const iterator = el.iterator2 || el.iterator1; const parent = el.parent; if (iterator && iterator === exp && parent && parent.tag === 'transition-group') { warn$2( `Do not use v-for index as key on <transition-group> children, ` + `this is the same as not using keys.`, getRawBindingAttr(el, 'key'), true /* tip */ ); } } } el.key = exp; }}
function processRef (el) { const ref = getBindingAttr(el, 'ref'); if (ref) { el.ref = ref; el.refInFor = checkInFor(el); }}
function processFor (el) { let exp; if ((exp = getAndRemoveAttr(el, 'v-for'))) { const res = parseFor(exp); if (res) { extend(el, res); } else { warn$2( `Invalid v-for expression: ${exp}`, el.rawAttrsMap['v-for'] ); } }}
function parseFor (exp) { const inMatch = exp.match(forAliasRE); if (!inMatch) return const res = {}; res.for = inMatch[2].trim(); const alias = inMatch[1].trim().replace(stripParensRE, ''); const iteratorMatch = alias.match(forIteratorRE); if (iteratorMatch) { res.alias = alias.replace(forIteratorRE, '').trim(); res.iterator1 = iteratorMatch[1].trim(); if (iteratorMatch[2]) { res.iterator2 = iteratorMatch[2].trim(); } } else { res.alias = alias; } return res}
function processIf (el) { const exp = getAndRemoveAttr(el, 'v-if'); if (exp) { el.if = exp; addIfCondition(el, { exp: exp, block: el }); } else { if (getAndRemoveAttr(el, 'v-else') != null) { el.else = true; } const elseif = getAndRemoveAttr(el, 'v-else-if'); if (elseif) { el.elseif = elseif; } }}
function processIfConditions (el, parent) { const prev = findPrevElement(parent.children); if (prev && prev.if) { addIfCondition(prev, { exp: el.elseif, block: el }); } else { warn$2( `v-${el.elseif ? ('else-if="' + el.elseif + '"') : 'else'} ` + `used on element <${el.tag}> without corresponding v-if.`, el.rawAttrsMap[el.elseif ? 'v-else-if' : 'v-else'] ); }}
function findPrevElement (children) { let i = children.length; while (i--) { if (children[i].type === 1) { return children[i] } else { if (children[i].text !== ' ') { warn$2( `text "${children[i].text.trim()}" between v-if and v-else(-if) ` + `will be ignored.`, children[i] ); } children.pop(); } }}
function addIfCondition (el, condition) { if (!el.ifConditions) { el.ifConditions = []; } el.ifConditions.push(condition);}
function processOnce (el) { const once$$1 = getAndRemoveAttr(el, 'v-once'); if (once$$1 != null) { el.once = true; }}
// handle content being passed to a component as slot,
// e.g. <template slot="xxx">, <div slot-scope="xxx">
function processSlotContent (el) { let slotScope; if (el.tag === 'template') { slotScope = getAndRemoveAttr(el, 'scope'); /* istanbul ignore if */ if (slotScope) { warn$2( `the "scope" attribute for scoped slots have been deprecated and ` + `replaced by "slot-scope" since 2.5. The new "slot-scope" attribute ` + `can also be used on plain elements in addition to <template> to ` + `denote scoped slots.`, el.rawAttrsMap['scope'], true ); } el.slotScope = slotScope || getAndRemoveAttr(el, 'slot-scope'); } else if ((slotScope = getAndRemoveAttr(el, 'slot-scope'))) { /* istanbul ignore if */ if (el.attrsMap['v-for']) { warn$2( `Ambiguous combined usage of slot-scope and v-for on <${el.tag}> ` + `(v-for takes higher priority). Use a wrapper <template> for the ` + `scoped slot to make it clearer.`, el.rawAttrsMap['slot-scope'], true ); } el.slotScope = slotScope; }
// slot="xxx"
const slotTarget = getBindingAttr(el, 'slot'); if (slotTarget) { el.slotTarget = slotTarget === '""' ? '"default"' : slotTarget; el.slotTargetDynamic = !!(el.attrsMap[':slot'] || el.attrsMap['v-bind:slot']); // preserve slot as an attribute for native shadow DOM compat
// only for non-scoped slots.
if (el.tag !== 'template' && !el.slotScope) { addAttr(el, 'slot', slotTarget, getRawBindingAttr(el, 'slot')); } }
// 2.6 v-slot syntax
{ if (el.tag === 'template') { // v-slot on <template>
const slotBinding = getAndRemoveAttrByRegex(el, slotRE); if (slotBinding) { { if (el.slotTarget || el.slotScope) { warn$2( `Unexpected mixed usage of different slot syntaxes.`, el ); } if (el.parent && !maybeComponent(el.parent)) { warn$2( `<template v-slot> can only appear at the root level inside ` + `the receiving component`, el ); } } const { name, dynamic } = getSlotName(slotBinding); el.slotTarget = name; el.slotTargetDynamic = dynamic; el.slotScope = slotBinding.value || emptySlotScopeToken; // force it into a scoped slot for perf
} } else { // v-slot on component, denotes default slot
const slotBinding = getAndRemoveAttrByRegex(el, slotRE); if (slotBinding) { { if (!maybeComponent(el)) { warn$2( `v-slot can only be used on components or <template>.`, slotBinding ); } if (el.slotScope || el.slotTarget) { warn$2( `Unexpected mixed usage of different slot syntaxes.`, el ); } if (el.scopedSlots) { warn$2( `To avoid scope ambiguity, the default slot should also use ` + `<template> syntax when there are other named slots.`, slotBinding ); } } // add the component's children to its default slot
const slots = el.scopedSlots || (el.scopedSlots = {}); const { name, dynamic } = getSlotName(slotBinding); const slotContainer = slots[name] = createASTElement('template', [], el); slotContainer.slotTarget = name; slotContainer.slotTargetDynamic = dynamic; slotContainer.children = el.children.filter((c) => { if (!c.slotScope) { c.parent = slotContainer; return true } }); slotContainer.slotScope = slotBinding.value || emptySlotScopeToken; // remove children as they are returned from scopedSlots now
el.children = []; // mark el non-plain so data gets generated
el.plain = false; } } }}
function getSlotName (binding) { let name = binding.name.replace(slotRE, ''); if (!name) { if (binding.name[0] !== '#') { name = 'default'; } else { warn$2( `v-slot shorthand syntax requires a slot name.`, binding ); } } return dynamicArgRE.test(name) // dynamic [name]
? { name: name.slice(1, -1), dynamic: true } // static name
: { name: `"${name}"`, dynamic: false }}
// handle <slot/> outlets
function processSlotOutlet (el) { if (el.tag === 'slot') { el.slotName = getBindingAttr(el, 'name'); if (el.key) { warn$2( `\`key\` does not work on <slot> because slots are abstract outlets ` + `and can possibly expand into multiple elements. ` + `Use the key on a wrapping element instead.`, getRawBindingAttr(el, 'key') ); } }}
function processComponent (el) { let binding; if ((binding = getBindingAttr(el, 'is'))) { el.component = binding; } if (getAndRemoveAttr(el, 'inline-template') != null) { el.inlineTemplate = true; }}
function processAttrs (el) { const list = el.attrsList; let i, l, name, rawName, value, modifiers, syncGen, isDynamic; for (i = 0, l = list.length; i < l; i++) { name = rawName = list[i].name; value = list[i].value; if (dirRE.test(name)) { // mark element as dynamic
el.hasBindings = true; // modifiers
modifiers = parseModifiers(name.replace(dirRE, '')); // support .foo shorthand syntax for the .prop modifier
if (modifiers) { name = name.replace(modifierRE, ''); } if (bindRE.test(name)) { // v-bind
name = name.replace(bindRE, ''); value = parseFilters(value); isDynamic = dynamicArgRE.test(name); if (isDynamic) { name = name.slice(1, -1); } if ( value.trim().length === 0 ) { warn$2( `The value for a v-bind expression cannot be empty. Found in "v-bind:${name}"` ); } if (modifiers) { if (modifiers.prop && !isDynamic) { name = camelize(name); if (name === 'innerHtml') name = 'innerHTML'; } if (modifiers.camel && !isDynamic) { name = camelize(name); } if (modifiers.sync) { syncGen = genAssignmentCode(value, `$event`); if (!isDynamic) { addHandler( el, `update:${camelize(name)}`, syncGen, null, false, warn$2, list[i] ); if (hyphenate(name) !== camelize(name)) { addHandler( el, `update:${hyphenate(name)}`, syncGen, null, false, warn$2, list[i] ); } } else { // handler w/ dynamic event name
addHandler( el, `"update:"+(${name})`, syncGen, null, false, warn$2, list[i], true // dynamic
); } } } if ((modifiers && modifiers.prop) || ( !el.component && platformMustUseProp(el.tag, el.attrsMap.type, name) )) { addProp(el, name, value, list[i], isDynamic); } else { addAttr(el, name, value, list[i], isDynamic); } } else if (onRE.test(name)) { // v-on
name = name.replace(onRE, ''); isDynamic = dynamicArgRE.test(name); if (isDynamic) { name = name.slice(1, -1); } addHandler(el, name, value, modifiers, false, warn$2, list[i], isDynamic); } else { // normal directives
name = name.replace(dirRE, ''); // parse arg
const argMatch = name.match(argRE); let arg = argMatch && argMatch[1]; isDynamic = false; if (arg) { name = name.slice(0, -(arg.length + 1)); if (dynamicArgRE.test(arg)) { arg = arg.slice(1, -1); isDynamic = true; } } addDirective(el, name, rawName, value, arg, isDynamic, modifiers, list[i]); if (name === 'model') { checkForAliasModel(el, value); } } } else { // literal attribute
{ const res = parseText(value, delimiters); if (res) { warn$2( `${name}="${value}": ` + 'Interpolation inside attributes has been removed. ' + 'Use v-bind or the colon shorthand instead. For example, ' + 'instead of <div id="{{ val }}">, use <div :id="val">.', list[i] ); } } addAttr(el, name, JSON.stringify(value), list[i]); // #6887 firefox doesn't update muted state if set via attribute
// even immediately after element creation
if (!el.component && name === 'muted' && platformMustUseProp(el.tag, el.attrsMap.type, name)) { addProp(el, name, 'true', list[i]); } } }}
function checkInFor (el) { let parent = el; while (parent) { if (parent.for !== undefined) { return true } parent = parent.parent; } return false}
function parseModifiers (name) { const match = name.match(modifierRE); if (match) { const ret = {}; match.forEach(m => { ret[m.slice(1)] = true; }); return ret }}
function makeAttrsMap (attrs) { const map = {}; for (let i = 0, l = attrs.length; i < l; i++) { if ( map[attrs[i].name] && !isIE && !isEdge ) { warn$2('duplicate attribute: ' + attrs[i].name, attrs[i]); } map[attrs[i].name] = attrs[i].value; } return map}
// for script (e.g. type="x/template") or style, do not decode content
function isTextTag (el) { return el.tag === 'script' || el.tag === 'style'}
function isForbiddenTag (el) { return ( el.tag === 'style' || (el.tag === 'script' && ( !el.attrsMap.type || el.attrsMap.type === 'text/javascript' )) )}
const ieNSBug = /^xmlns:NS\d+/;const ieNSPrefix = /^NS\d+:/;
/* istanbul ignore next */function guardIESVGBug (attrs) { const res = []; for (let i = 0; i < attrs.length; i++) { const attr = attrs[i]; if (!ieNSBug.test(attr.name)) { attr.name = attr.name.replace(ieNSPrefix, ''); res.push(attr); } } return res}
function checkForAliasModel (el, value) { let _el = el; while (_el) { if (_el.for && _el.alias === value) { warn$2( `<${el.tag} v-model="${value}">: ` + `You are binding v-model directly to a v-for iteration alias. ` + `This will not be able to modify the v-for source array because ` + `writing to the alias is like modifying a function local variable. ` + `Consider using an array of objects and use v-model on an object property instead.`, el.rawAttrsMap['v-model'] ); } _el = _el.parent; }}
/* */
function preTransformNode (el, options) { if (el.tag === 'input') { const map = el.attrsMap; if (!map['v-model']) { return }
let typeBinding; if (map[':type'] || map['v-bind:type']) { typeBinding = getBindingAttr(el, 'type'); } if (!map.type && !typeBinding && map['v-bind']) { typeBinding = `(${map['v-bind']}).type`; }
if (typeBinding) { const ifCondition = getAndRemoveAttr(el, 'v-if', true); const ifConditionExtra = ifCondition ? `&&(${ifCondition})` : ``; const hasElse = getAndRemoveAttr(el, 'v-else', true) != null; const elseIfCondition = getAndRemoveAttr(el, 'v-else-if', true); // 1. checkbox
const branch0 = cloneASTElement(el); // process for on the main node
processFor(branch0); addRawAttr(branch0, 'type', 'checkbox'); processElement(branch0, options); branch0.processed = true; // prevent it from double-processed
branch0.if = `(${typeBinding})==='checkbox'` + ifConditionExtra; addIfCondition(branch0, { exp: branch0.if, block: branch0 }); // 2. add radio else-if condition
const branch1 = cloneASTElement(el); getAndRemoveAttr(branch1, 'v-for', true); addRawAttr(branch1, 'type', 'radio'); processElement(branch1, options); addIfCondition(branch0, { exp: `(${typeBinding})==='radio'` + ifConditionExtra, block: branch1 }); // 3. other
const branch2 = cloneASTElement(el); getAndRemoveAttr(branch2, 'v-for', true); addRawAttr(branch2, ':type', typeBinding); processElement(branch2, options); addIfCondition(branch0, { exp: ifCondition, block: branch2 });
if (hasElse) { branch0.else = true; } else if (elseIfCondition) { branch0.elseif = elseIfCondition; }
return branch0 } }}
function cloneASTElement (el) { return createASTElement(el.tag, el.attrsList.slice(), el.parent)}
var model$1 = { preTransformNode};
var modules$1 = [ klass$1, style$1, model$1];
/* */
function text (el, dir) { if (dir.value) { addProp(el, 'textContent', `_s(${dir.value})`, dir); }}
/* */
function html (el, dir) { if (dir.value) { addProp(el, 'innerHTML', `_s(${dir.value})`, dir); }}
var directives$1 = { model, text, html};
/* */
const baseOptions = { expectHTML: true, modules: modules$1, directives: directives$1, isPreTag, isUnaryTag, mustUseProp, canBeLeftOpenTag, isReservedTag, getTagNamespace, staticKeys: genStaticKeys(modules$1)};
/* */
let isStaticKey;let isPlatformReservedTag;
const genStaticKeysCached = cached(genStaticKeys$1);
/** * Goal of the optimizer: walk the generated template AST tree * and detect sub-trees that are purely static, i.e. parts of * the DOM that never needs to change. * * Once we detect these sub-trees, we can: * * 1. Hoist them into constants, so that we no longer need to * create fresh nodes for them on each re-render; * 2. Completely skip them in the patching process. */function optimize (root, options) { if (!root) return isStaticKey = genStaticKeysCached(options.staticKeys || ''); isPlatformReservedTag = options.isReservedTag || no; // first pass: mark all non-static nodes.
markStatic$1(root); // second pass: mark static roots.
markStaticRoots(root, false);}
function genStaticKeys$1 (keys) { return makeMap( 'type,tag,attrsList,attrsMap,plain,parent,children,attrs,start,end,rawAttrsMap' + (keys ? ',' + keys : '') )}
function markStatic$1 (node) { node.static = isStatic(node); if (node.type === 1) { // do not make component slot content static. this avoids
// 1. components not able to mutate slot nodes
// 2. static slot content fails for hot-reloading
if ( !isPlatformReservedTag(node.tag) && node.tag !== 'slot' && node.attrsMap['inline-template'] == null ) { return } for (let i = 0, l = node.children.length; i < l; i++) { const child = node.children[i]; markStatic$1(child); if (!child.static) { node.static = false; } } if (node.ifConditions) { for (let i = 1, l = node.ifConditions.length; i < l; i++) { const block = node.ifConditions[i].block; markStatic$1(block); if (!block.static) { node.static = false; } } } }}
function markStaticRoots (node, isInFor) { if (node.type === 1) { if (node.static || node.once) { node.staticInFor = isInFor; } // For a node to qualify as a static root, it should have children that
// are not just static text. Otherwise the cost of hoisting out will
// outweigh the benefits and it's better off to just always render it fresh.
if (node.static && node.children.length && !( node.children.length === 1 && node.children[0].type === 3 )) { node.staticRoot = true; return } else { node.staticRoot = false; } if (node.children) { for (let i = 0, l = node.children.length; i < l; i++) { markStaticRoots(node.children[i], isInFor || !!node.for); } } if (node.ifConditions) { for (let i = 1, l = node.ifConditions.length; i < l; i++) { markStaticRoots(node.ifConditions[i].block, isInFor); } } }}
function isStatic (node) { if (node.type === 2) { // expression
return false } if (node.type === 3) { // text
return true } return !!(node.pre || ( !node.hasBindings && // no dynamic bindings
!node.if && !node.for && // not v-if or v-for or v-else
!isBuiltInTag(node.tag) && // not a built-in
isPlatformReservedTag(node.tag) && // not a component
!isDirectChildOfTemplateFor(node) && Object.keys(node).every(isStaticKey) ))}
function isDirectChildOfTemplateFor (node) { while (node.parent) { node = node.parent; if (node.tag !== 'template') { return false } if (node.for) { return true } } return false}
/* */
const fnExpRE = /^([\w$_]+|\([^)]*?\))\s*=>|^function(?:\s+[\w$]+)?\s*\(/;const fnInvokeRE = /\([^)]*?\);*$/;const simplePathRE = /^[A-Za-z_$][\w$]*(?:\.[A-Za-z_$][\w$]*|\['[^']*?']|\["[^"]*?"]|\[\d+]|\[[A-Za-z_$][\w$]*])*$/;
// KeyboardEvent.keyCode aliases
const keyCodes = { esc: 27, tab: 9, enter: 13, space: 32, up: 38, left: 37, right: 39, down: 40, 'delete': [8, 46]};
// KeyboardEvent.key aliases
const keyNames = { // #7880: IE11 and Edge use `Esc` for Escape key name.
esc: ['Esc', 'Escape'], tab: 'Tab', enter: 'Enter', // #9112: IE11 uses `Spacebar` for Space key name.
space: [' ', 'Spacebar'], // #7806: IE11 uses key names without `Arrow` prefix for arrow keys.
up: ['Up', 'ArrowUp'], left: ['Left', 'ArrowLeft'], right: ['Right', 'ArrowRight'], down: ['Down', 'ArrowDown'], // #9112: IE11 uses `Del` for Delete key name.
'delete': ['Backspace', 'Delete', 'Del']};
// #4868: modifiers that prevent the execution of the listener
// need to explicitly return null so that we can determine whether to remove
// the listener for .once
const genGuard = condition => `if(${condition})return null;`;
const modifierCode = { stop: '$event.stopPropagation();', prevent: '$event.preventDefault();', self: genGuard(`$event.target !== $event.currentTarget`), ctrl: genGuard(`!$event.ctrlKey`), shift: genGuard(`!$event.shiftKey`), alt: genGuard(`!$event.altKey`), meta: genGuard(`!$event.metaKey`), left: genGuard(`'button' in $event && $event.button !== 0`), middle: genGuard(`'button' in $event && $event.button !== 1`), right: genGuard(`'button' in $event && $event.button !== 2`)};
function genHandlers ( events, isNative) { const prefix = isNative ? 'nativeOn:' : 'on:'; let staticHandlers = ``; let dynamicHandlers = ``; for (const name in events) { const handlerCode = genHandler(events[name]); if (events[name] && events[name].dynamic) { dynamicHandlers += `${name},${handlerCode},`; } else { staticHandlers += `"${name}":${handlerCode},`; } } staticHandlers = `{${staticHandlers.slice(0, -1)}}`; if (dynamicHandlers) { return prefix + `_d(${staticHandlers},[${dynamicHandlers.slice(0, -1)}])` } else { return prefix + staticHandlers }}
function genHandler (handler) { if (!handler) { return 'function(){}' }
if (Array.isArray(handler)) { return `[${handler.map(handler => genHandler(handler)).join(',')}]` }
const isMethodPath = simplePathRE.test(handler.value); const isFunctionExpression = fnExpRE.test(handler.value); const isFunctionInvocation = simplePathRE.test(handler.value.replace(fnInvokeRE, ''));
if (!handler.modifiers) { if (isMethodPath || isFunctionExpression) { return handler.value } return `function($event){${ isFunctionInvocation ? `return ${handler.value}` : handler.value }}` // inline statement
} else { let code = ''; let genModifierCode = ''; const keys = []; for (const key in handler.modifiers) { if (modifierCode[key]) { genModifierCode += modifierCode[key]; // left/right
if (keyCodes[key]) { keys.push(key); } } else if (key === 'exact') { const modifiers = (handler.modifiers); genModifierCode += genGuard( ['ctrl', 'shift', 'alt', 'meta'] .filter(keyModifier => !modifiers[keyModifier]) .map(keyModifier => `$event.${keyModifier}Key`) .join('||') ); } else { keys.push(key); } } if (keys.length) { code += genKeyFilter(keys); } // Make sure modifiers like prevent and stop get executed after key filtering
if (genModifierCode) { code += genModifierCode; } const handlerCode = isMethodPath ? `return ${handler.value}.apply(null, arguments)` : isFunctionExpression ? `return (${handler.value}).apply(null, arguments)` : isFunctionInvocation ? `return ${handler.value}` : handler.value; return `function($event){${code}${handlerCode}}` }}
function genKeyFilter (keys) { return ( // make sure the key filters only apply to KeyboardEvents
// #9441: can't use 'keyCode' in $event because Chrome autofill fires fake
// key events that do not have keyCode property...
`if(!$event.type.indexOf('key')&&` + `${keys.map(genFilterCode).join('&&')})return null;` )}
function genFilterCode (key) { const keyVal = parseInt(key, 10); if (keyVal) { return `$event.keyCode!==${keyVal}` } const keyCode = keyCodes[key]; const keyName = keyNames[key]; return ( `_k($event.keyCode,` + `${JSON.stringify(key)},` + `${JSON.stringify(keyCode)},` + `$event.key,` + `${JSON.stringify(keyName)}` + `)` )}
/* */
function on (el, dir) { if (dir.modifiers) { warn(`v-on without argument does not support modifiers.`); } el.wrapListeners = (code) => `_g(${code},${dir.value})`;}
/* */
function bind$1 (el, dir) { el.wrapData = (code) => { return `_b(${code},'${el.tag}',${dir.value},${ dir.modifiers && dir.modifiers.prop ? 'true' : 'false' }${ dir.modifiers && dir.modifiers.sync ? ',true' : '' })`
};}
/* */
var baseDirectives = { on, bind: bind$1, cloak: noop};
/* */
class CodegenState {
constructor (options) { this.options = options; this.warn = options.warn || baseWarn; this.transforms = pluckModuleFunction(options.modules, 'transformCode'); this.dataGenFns = pluckModuleFunction(options.modules, 'genData'); this.directives = extend(extend({}, baseDirectives), options.directives); const isReservedTag = options.isReservedTag || no; this.maybeComponent = (el) => !!el.component || !isReservedTag(el.tag); this.onceId = 0; this.staticRenderFns = []; this.pre = false; }}
function generate ( ast, options) { const state = new CodegenState(options); // fix #11483, Root level <script> tags should not be rendered.
const code = ast ? (ast.tag === 'script' ? 'null' : genElement(ast, state)) : '_c("div")'; return { render: `with(this){return ${code}}`, staticRenderFns: state.staticRenderFns }}
function genElement (el, state) { if (el.parent) { el.pre = el.pre || el.parent.pre; }
if (el.staticRoot && !el.staticProcessed) { return genStatic(el, state) } else if (el.once && !el.onceProcessed) { return genOnce(el, state) } else if (el.for && !el.forProcessed) { return genFor(el, state) } else if (el.if && !el.ifProcessed) { return genIf(el, state) } else if (el.tag === 'template' && !el.slotTarget && !state.pre) { return genChildren(el, state) || 'void 0' } else if (el.tag === 'slot') { return genSlot(el, state) } else { // component or element
let code; if (el.component) { code = genComponent(el.component, el, state); } else { let data; if (!el.plain || (el.pre && state.maybeComponent(el))) { data = genData$2(el, state); }
const children = el.inlineTemplate ? null : genChildren(el, state, true); code = `_c('${el.tag}'${ data ? `,${data}` : '' // data
}${ children ? `,${children}` : '' // children
})`;
} // module transforms
for (let i = 0; i < state.transforms.length; i++) { code = state.transforms[i](el, code); } return code }}
// hoist static sub-trees out
function genStatic (el, state) { el.staticProcessed = true; // Some elements (templates) need to behave differently inside of a v-pre
// node. All pre nodes are static roots, so we can use this as a location to
// wrap a state change and reset it upon exiting the pre node.
const originalPreState = state.pre; if (el.pre) { state.pre = el.pre; } state.staticRenderFns.push(`with(this){return ${genElement(el, state)}}`); state.pre = originalPreState; return `_m(${ state.staticRenderFns.length - 1 }${ el.staticInFor ? ',true' : '' })`
}
// v-once
function genOnce (el, state) { el.onceProcessed = true; if (el.if && !el.ifProcessed) { return genIf(el, state) } else if (el.staticInFor) { let key = ''; let parent = el.parent; while (parent) { if (parent.for) { key = parent.key; break } parent = parent.parent; } if (!key) { state.warn( `v-once can only be used inside v-for that is keyed. `, el.rawAttrsMap['v-once'] ); return genElement(el, state) } return `_o(${genElement(el, state)},${state.onceId++},${key})` } else { return genStatic(el, state) }}
function genIf ( el, state, altGen, altEmpty) { el.ifProcessed = true; // avoid recursion
return genIfConditions(el.ifConditions.slice(), state, altGen, altEmpty)}
function genIfConditions ( conditions, state, altGen, altEmpty) { if (!conditions.length) { return altEmpty || '_e()' }
const condition = conditions.shift(); if (condition.exp) { return `(${condition.exp})?${ genTernaryExp(condition.block) }:${ genIfConditions(conditions, state, altGen, altEmpty) }`
} else { return `${genTernaryExp(condition.block)}` }
// v-if with v-once should generate code like (a)?_m(0):_m(1)
function genTernaryExp (el) { return altGen ? altGen(el, state) : el.once ? genOnce(el, state) : genElement(el, state) }}
function genFor ( el, state, altGen, altHelper) { const exp = el.for; const alias = el.alias; const iterator1 = el.iterator1 ? `,${el.iterator1}` : ''; const iterator2 = el.iterator2 ? `,${el.iterator2}` : '';
if (state.maybeComponent(el) && el.tag !== 'slot' && el.tag !== 'template' && !el.key ) { state.warn( `<${el.tag} v-for="${alias} in ${exp}">: component lists rendered with ` + `v-for should have explicit keys. ` + `See https://vuejs.org/guide/list.html#key for more info.`, el.rawAttrsMap['v-for'], true /* tip */ ); }
el.forProcessed = true; // avoid recursion
return `${altHelper || '_l'}((${exp}),` + `function(${alias}${iterator1}${iterator2}){` + `return ${(altGen || genElement)(el, state)}` + '})'}
function genData$2 (el, state) { let data = '{';
// directives first.
// directives may mutate the el's other properties before they are generated.
const dirs = genDirectives(el, state); if (dirs) data += dirs + ',';
// key
if (el.key) { data += `key:${el.key},`; } // ref
if (el.ref) { data += `ref:${el.ref},`; } if (el.refInFor) { data += `refInFor:true,`; } // pre
if (el.pre) { data += `pre:true,`; } // record original tag name for components using "is" attribute
if (el.component) { data += `tag:"${el.tag}",`; } // module data generation functions
for (let i = 0; i < state.dataGenFns.length; i++) { data += state.dataGenFns[i](el); } // attributes
if (el.attrs) { data += `attrs:${genProps(el.attrs)},`; } // DOM props
if (el.props) { data += `domProps:${genProps(el.props)},`; } // event handlers
if (el.events) { data += `${genHandlers(el.events, false)},`; } if (el.nativeEvents) { data += `${genHandlers(el.nativeEvents, true)},`; } // slot target
// only for non-scoped slots
if (el.slotTarget && !el.slotScope) { data += `slot:${el.slotTarget},`; } // scoped slots
if (el.scopedSlots) { data += `${genScopedSlots(el, el.scopedSlots, state)},`; } // component v-model
if (el.model) { data += `model:{value:${ el.model.value },callback:${ el.model.callback },expression:${ el.model.expression }},`;
} // inline-template
if (el.inlineTemplate) { const inlineTemplate = genInlineTemplate(el, state); if (inlineTemplate) { data += `${inlineTemplate},`; } } data = data.replace(/,$/, '') + '}'; // v-bind dynamic argument wrap
// v-bind with dynamic arguments must be applied using the same v-bind object
// merge helper so that class/style/mustUseProp attrs are handled correctly.
if (el.dynamicAttrs) { data = `_b(${data},"${el.tag}",${genProps(el.dynamicAttrs)})`; } // v-bind data wrap
if (el.wrapData) { data = el.wrapData(data); } // v-on data wrap
if (el.wrapListeners) { data = el.wrapListeners(data); } return data}
function genDirectives (el, state) { const dirs = el.directives; if (!dirs) return let res = 'directives:['; let hasRuntime = false; let i, l, dir, needRuntime; for (i = 0, l = dirs.length; i < l; i++) { dir = dirs[i]; needRuntime = true; const gen = state.directives[dir.name]; if (gen) { // compile-time directive that manipulates AST.
// returns true if it also needs a runtime counterpart.
needRuntime = !!gen(el, dir, state.warn); } if (needRuntime) { hasRuntime = true; res += `{name:"${dir.name}",rawName:"${dir.rawName}"${ dir.value ? `,value:(${dir.value}),expression:${JSON.stringify(dir.value)}` : '' }${ dir.arg ? `,arg:${dir.isDynamicArg ? dir.arg : `"${dir.arg}"`}` : '' }${ dir.modifiers ? `,modifiers:${JSON.stringify(dir.modifiers)}` : '' }},`;
} } if (hasRuntime) { return res.slice(0, -1) + ']' }}
function genInlineTemplate (el, state) { const ast = el.children[0]; if (el.children.length !== 1 || ast.type !== 1) { state.warn( 'Inline-template components must have exactly one child element.', { start: el.start } ); } if (ast && ast.type === 1) { const inlineRenderFns = generate(ast, state.options); return `inlineTemplate:{render:function(){${ inlineRenderFns.render }},staticRenderFns:[${ inlineRenderFns.staticRenderFns.map(code => `function(){${code}}`).join(',') }]}`
}}
function genScopedSlots ( el, slots, state) { // by default scoped slots are considered "stable", this allows child
// components with only scoped slots to skip forced updates from parent.
// but in some cases we have to bail-out of this optimization
// for example if the slot contains dynamic names, has v-if or v-for on them...
let needsForceUpdate = el.for || Object.keys(slots).some(key => { const slot = slots[key]; return ( slot.slotTargetDynamic || slot.if || slot.for || containsSlotChild(slot) // is passing down slot from parent which may be dynamic
) });
// #9534: if a component with scoped slots is inside a conditional branch,
// it's possible for the same component to be reused but with different
// compiled slot content. To avoid that, we generate a unique key based on
// the generated code of all the slot contents.
let needsKey = !!el.if;
// OR when it is inside another scoped slot or v-for (the reactivity may be
// disconnected due to the intermediate scope variable)
// #9438, #9506
// TODO: this can be further optimized by properly analyzing in-scope bindings
// and skip force updating ones that do not actually use scope variables.
if (!needsForceUpdate) { let parent = el.parent; while (parent) { if ( (parent.slotScope && parent.slotScope !== emptySlotScopeToken) || parent.for ) { needsForceUpdate = true; break } if (parent.if) { needsKey = true; } parent = parent.parent; } }
const generatedSlots = Object.keys(slots) .map(key => genScopedSlot(slots[key], state)) .join(',');
return `scopedSlots:_u([${generatedSlots}]${ needsForceUpdate ? `,null,true` : `` }${ !needsForceUpdate && needsKey ? `,null,false,${hash(generatedSlots)}` : `` })`
}
function hash(str) { let hash = 5381; let i = str.length; while(i) { hash = (hash * 33) ^ str.charCodeAt(--i); } return hash >>> 0}
function containsSlotChild (el) { if (el.type === 1) { if (el.tag === 'slot') { return true } return el.children.some(containsSlotChild) } return false}
function genScopedSlot ( el, state) { const isLegacySyntax = el.attrsMap['slot-scope']; if (el.if && !el.ifProcessed && !isLegacySyntax) { return genIf(el, state, genScopedSlot, `null`) } if (el.for && !el.forProcessed) { return genFor(el, state, genScopedSlot) } const slotScope = el.slotScope === emptySlotScopeToken ? `` : String(el.slotScope); const fn = `function(${slotScope}){` + `return ${el.tag === 'template' ? el.if && isLegacySyntax ? `(${el.if})?${genChildren(el, state) || 'undefined'}:undefined` : genChildren(el, state) || 'undefined' : genElement(el, state) }}`;
// reverse proxy v-slot without scope on this.$slots
const reverseProxy = slotScope ? `` : `,proxy:true`; return `{key:${el.slotTarget || `"default"`},fn:${fn}${reverseProxy}}`}
function genChildren ( el, state, checkSkip, altGenElement, altGenNode) { const children = el.children; if (children.length) { const el = children[0]; // optimize single v-for
if (children.length === 1 && el.for && el.tag !== 'template' && el.tag !== 'slot' ) { const normalizationType = checkSkip ? state.maybeComponent(el) ? `,1` : `,0` : ``; return `${(altGenElement || genElement)(el, state)}${normalizationType}` } const normalizationType = checkSkip ? getNormalizationType(children, state.maybeComponent) : 0; const gen = altGenNode || genNode; return `[${children.map(c => gen(c, state)).join(',')}]${ normalizationType ? `,${normalizationType}` : '' }`
}}
// determine the normalization needed for the children array.
// 0: no normalization needed
// 1: simple normalization needed (possible 1-level deep nested array)
// 2: full normalization needed
function getNormalizationType ( children, maybeComponent) { let res = 0; for (let i = 0; i < children.length; i++) { const el = children[i]; if (el.type !== 1) { continue } if (needsNormalization(el) || (el.ifConditions && el.ifConditions.some(c => needsNormalization(c.block)))) { res = 2; break } if (maybeComponent(el) || (el.ifConditions && el.ifConditions.some(c => maybeComponent(c.block)))) { res = 1; } } return res}
function needsNormalization (el) { return el.for !== undefined || el.tag === 'template' || el.tag === 'slot'}
function genNode (node, state) { if (node.type === 1) { return genElement(node, state) } else if (node.type === 3 && node.isComment) { return genComment(node) } else { return genText(node) }}
function genText (text) { return `_v(${text.type === 2 ? text.expression // no need for () because already wrapped in _s()
: transformSpecialNewlines(JSON.stringify(text.text)) })`
}
function genComment (comment) { return `_e(${JSON.stringify(comment.text)})`}
function genSlot (el, state) { const slotName = el.slotName || '"default"'; const children = genChildren(el, state); let res = `_t(${slotName}${children ? `,function(){return ${children}}` : ''}`; const attrs = el.attrs || el.dynamicAttrs ? genProps((el.attrs || []).concat(el.dynamicAttrs || []).map(attr => ({ // slot props are camelized
name: camelize(attr.name), value: attr.value, dynamic: attr.dynamic }))) : null; const bind$$1 = el.attrsMap['v-bind']; if ((attrs || bind$$1) && !children) { res += `,null`; } if (attrs) { res += `,${attrs}`; } if (bind$$1) { res += `${attrs ? '' : ',null'},${bind$$1}`; } return res + ')'}
// componentName is el.component, take it as argument to shun flow's pessimistic refinement
function genComponent ( componentName, el, state) { const children = el.inlineTemplate ? null : genChildren(el, state, true); return `_c(${componentName},${genData$2(el, state)}${ children ? `,${children}` : '' })`
}
function genProps (props) { let staticProps = ``; let dynamicProps = ``; for (let i = 0; i < props.length; i++) { const prop = props[i]; const value = transformSpecialNewlines(prop.value); if (prop.dynamic) { dynamicProps += `${prop.name},${value},`; } else { staticProps += `"${prop.name}":${value},`; } } staticProps = `{${staticProps.slice(0, -1)}}`; if (dynamicProps) { return `_d(${staticProps},[${dynamicProps.slice(0, -1)}])` } else { return staticProps }}
// #3895, #4268
function transformSpecialNewlines (text) { return text .replace(/\u2028/g, '\\u2028') .replace(/\u2029/g, '\\u2029')}
/* */
// these keywords should not appear inside expressions, but operators like
// typeof, instanceof and in are allowed
const prohibitedKeywordRE = new RegExp('\\b' + ( 'do,if,for,let,new,try,var,case,else,with,await,break,catch,class,const,' + 'super,throw,while,yield,delete,export,import,return,switch,default,' + 'extends,finally,continue,debugger,function,arguments').split(',').join('\\b|\\b') + '\\b');
// these unary operators should not be used as property/method names
const unaryOperatorsRE = new RegExp('\\b' + ( 'delete,typeof,void').split(',').join('\\s*\\([^\\)]*\\)|\\b') + '\\s*\\([^\\)]*\\)');
// strip strings in expressions
const stripStringRE = /'(?:[^'\\]|\\.)*'|"(?:[^"\\]|\\.)*"|`(?:[^`\\]|\\.)*\$\{|\}(?:[^`\\]|\\.)*`|`(?:[^`\\]|\\.)*`/g;
// detect problematic expressions in a template
function detectErrors (ast, warn) { if (ast) { checkNode(ast, warn); }}
function checkNode (node, warn) { if (node.type === 1) { for (const name in node.attrsMap) { if (dirRE.test(name)) { const value = node.attrsMap[name]; if (value) { const range = node.rawAttrsMap[name]; if (name === 'v-for') { checkFor(node, `v-for="${value}"`, warn, range); } else if (name === 'v-slot' || name[0] === '#') { checkFunctionParameterExpression(value, `${name}="${value}"`, warn, range); } else if (onRE.test(name)) { checkEvent(value, `${name}="${value}"`, warn, range); } else { checkExpression(value, `${name}="${value}"`, warn, range); } } } } if (node.children) { for (let i = 0; i < node.children.length; i++) { checkNode(node.children[i], warn); } } } else if (node.type === 2) { checkExpression(node.expression, node.text, warn, node); }}
function checkEvent (exp, text, warn, range) { const stripped = exp.replace(stripStringRE, ''); const keywordMatch = stripped.match(unaryOperatorsRE); if (keywordMatch && stripped.charAt(keywordMatch.index - 1) !== '$') { warn( `avoid using JavaScript unary operator as property name: ` + `"${keywordMatch[0]}" in expression ${text.trim()}`, range ); } checkExpression(exp, text, warn, range);}
function checkFor (node, text, warn, range) { checkExpression(node.for || '', text, warn, range); checkIdentifier(node.alias, 'v-for alias', text, warn, range); checkIdentifier(node.iterator1, 'v-for iterator', text, warn, range); checkIdentifier(node.iterator2, 'v-for iterator', text, warn, range);}
function checkIdentifier ( ident, type, text, warn, range) { if (typeof ident === 'string') { try { new Function(`var ${ident}=_`); } catch (e) { warn(`invalid ${type} "${ident}" in expression: ${text.trim()}`, range); } }}
function checkExpression (exp, text, warn, range) { try { new Function(`return ${exp}`); } catch (e) { const keywordMatch = exp.replace(stripStringRE, '').match(prohibitedKeywordRE); if (keywordMatch) { warn( `avoid using JavaScript keyword as property name: ` + `"${keywordMatch[0]}"\n Raw expression: ${text.trim()}`, range ); } else { warn( `invalid expression: ${e.message} in\n\n` + ` ${exp}\n\n` + ` Raw expression: ${text.trim()}\n`, range ); } }}
function checkFunctionParameterExpression (exp, text, warn, range) { try { new Function(exp, ''); } catch (e) { warn( `invalid function parameter expression: ${e.message} in\n\n` + ` ${exp}\n\n` + ` Raw expression: ${text.trim()}\n`, range ); }}
/* */
const range = 2;
function generateCodeFrame ( source, start = 0, end = source.length) { const lines = source.split(/\r?\n/); let count = 0; const res = []; for (let i = 0; i < lines.length; i++) { count += lines[i].length + 1; if (count >= start) { for (let j = i - range; j <= i + range || end > count; j++) { if (j < 0 || j >= lines.length) continue res.push(`${j + 1}${repeat(` `, 3 - String(j + 1).length)}| ${lines[j]}`); const lineLength = lines[j].length; if (j === i) { // push underline
const pad = start - (count - lineLength) + 1; const length = end > count ? lineLength - pad : end - start; res.push(` | ` + repeat(` `, pad) + repeat(`^`, length)); } else if (j > i) { if (end > count) { const length = Math.min(end - count, lineLength); res.push(` | ` + repeat(`^`, length)); } count += lineLength + 1; } } break } } return res.join('\n')}
function repeat (str, n) { let result = ''; if (n > 0) { while (true) { // eslint-disable-line
if (n & 1) result += str; n >>>= 1; if (n <= 0) break str += str; } } return result}
/* */
function createFunction (code, errors) { try { return new Function(code) } catch (err) { errors.push({ err, code }); return noop }}
function createCompileToFunctionFn (compile) { const cache = Object.create(null);
return function compileToFunctions ( template, options, vm ) { options = extend({}, options); const warn$$1 = options.warn || warn; delete options.warn;
/* istanbul ignore if */ { // detect possible CSP restriction
try { new Function('return 1'); } catch (e) { if (e.toString().match(/unsafe-eval|CSP/)) { warn$$1( 'It seems you are using the standalone build of Vue.js in an ' + 'environment with Content Security Policy that prohibits unsafe-eval. ' + 'The template compiler cannot work in this environment. Consider ' + 'relaxing the policy to allow unsafe-eval or pre-compiling your ' + 'templates into render functions.' ); } } }
// check cache
const key = options.delimiters ? String(options.delimiters) + template : template; if (cache[key]) { return cache[key] }
// compile
const compiled = compile(template, options);
// check compilation errors/tips
{ if (compiled.errors && compiled.errors.length) { if (options.outputSourceRange) { compiled.errors.forEach(e => { warn$$1( `Error compiling template:\n\n${e.msg}\n\n` + generateCodeFrame(template, e.start, e.end), vm ); }); } else { warn$$1( `Error compiling template:\n\n${template}\n\n` + compiled.errors.map(e => `- ${e}`).join('\n') + '\n', vm ); } } if (compiled.tips && compiled.tips.length) { if (options.outputSourceRange) { compiled.tips.forEach(e => tip(e.msg, vm)); } else { compiled.tips.forEach(msg => tip(msg, vm)); } } }
// turn code into functions
const res = {}; const fnGenErrors = []; res.render = createFunction(compiled.render, fnGenErrors); res.staticRenderFns = compiled.staticRenderFns.map(code => { return createFunction(code, fnGenErrors) });
// check function generation errors.
// this should only happen if there is a bug in the compiler itself.
// mostly for codegen development use
/* istanbul ignore if */ { if ((!compiled.errors || !compiled.errors.length) && fnGenErrors.length) { warn$$1( `Failed to generate render function:\n\n` + fnGenErrors.map(({ err, code }) => `${err.toString()} in\n\n${code}\n`).join('\n'), vm ); } }
return (cache[key] = res) }}
/* */
function createCompilerCreator (baseCompile) { return function createCompiler (baseOptions) { function compile ( template, options ) { const finalOptions = Object.create(baseOptions); const errors = []; const tips = [];
let warn = (msg, range, tip) => { (tip ? tips : errors).push(msg); };
if (options) { if (options.outputSourceRange) { // $flow-disable-line
const leadingSpaceLength = template.match(/^\s*/)[0].length;
warn = (msg, range, tip) => { const data = { msg }; if (range) { if (range.start != null) { data.start = range.start + leadingSpaceLength; } if (range.end != null) { data.end = range.end + leadingSpaceLength; } } (tip ? tips : errors).push(data); }; } // merge custom modules
if (options.modules) { finalOptions.modules = (baseOptions.modules || []).concat(options.modules); } // merge custom directives
if (options.directives) { finalOptions.directives = extend( Object.create(baseOptions.directives || null), options.directives ); } // copy other options
for (const key in options) { if (key !== 'modules' && key !== 'directives') { finalOptions[key] = options[key]; } } }
finalOptions.warn = warn;
const compiled = baseCompile(template.trim(), finalOptions); { detectErrors(compiled.ast, warn); } compiled.errors = errors; compiled.tips = tips; return compiled }
return { compile, compileToFunctions: createCompileToFunctionFn(compile) } }}
/* */
// `createCompilerCreator` allows creating compilers that use alternative
// parser/optimizer/codegen, e.g the SSR optimizing compiler.
// Here we just export a default compiler using the default parts.
const createCompiler = createCompilerCreator(function baseCompile ( template, options) { const ast = parse(template.trim(), options); if (options.optimize !== false) { optimize(ast, options); } const code = generate(ast, options); return { ast, render: code.render, staticRenderFns: code.staticRenderFns }});
/* */
const { compile, compileToFunctions } = createCompiler(baseOptions);
/* */
// check whether current browser encodes a char inside attribute values
let div;function getShouldDecode (href) { div = div || document.createElement('div'); div.innerHTML = href ? `<a href="\n"/>` : `<div a="\n"/>`; return div.innerHTML.indexOf(' ') > 0}
// #3663: IE encodes newlines inside attribute values while other browsers don't
const shouldDecodeNewlines = inBrowser ? getShouldDecode(false) : false;// #6828: chrome encodes content in a[href]
const shouldDecodeNewlinesForHref = inBrowser ? getShouldDecode(true) : false;
/* */
const idToTemplate = cached(id => { const el = query(id); return el && el.innerHTML});
const mount = Vue.prototype.$mount;Vue.prototype.$mount = function ( el, hydrating) { el = el && query(el);
/* istanbul ignore if */ if (el === document.body || el === document.documentElement) { warn( `Do not mount Vue to <html> or <body> - mount to normal elements instead.` ); return this }
const options = this.$options; // resolve template/el and convert to render function
if (!options.render) { let template = options.template; if (template) { if (typeof template === 'string') { if (template.charAt(0) === '#') { template = idToTemplate(template); /* istanbul ignore if */ if (!template) { warn( `Template element not found or is empty: ${options.template}`, this ); } } } else if (template.nodeType) { template = template.innerHTML; } else { { warn('invalid template option:' + template, this); } return this } } else if (el) { template = getOuterHTML(el); } if (template) { /* istanbul ignore if */ if (config.performance && mark) { mark('compile'); }
const { render, staticRenderFns } = compileToFunctions(template, { outputSourceRange: "development" !== 'production', shouldDecodeNewlines, shouldDecodeNewlinesForHref, delimiters: options.delimiters, comments: options.comments }, this); options.render = render; options.staticRenderFns = staticRenderFns;
/* istanbul ignore if */ if (config.performance && mark) { mark('compile end'); measure(`vue ${this._name} compile`, 'compile', 'compile end'); } } } return mount.call(this, el, hydrating)};
/** * Get outerHTML of elements, taking care * of SVG elements in IE as well. */function getOuterHTML (el) { if (el.outerHTML) { return el.outerHTML } else { const container = document.createElement('div'); container.appendChild(el.cloneNode(true)); return container.innerHTML }}
Vue.compile = compileToFunctions;
export default Vue;
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