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Test_Me/node_modules/@vue/server-renderer/dist/server-renderer.esm-browser.js

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/**
* Make a map and return a function for checking if a key
* is in that map.
* IMPORTANT: all calls of this function must be prefixed with
* \/\*#\_\_PURE\_\_\*\/
* So that rollup can tree-shake them if necessary.
*/
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];
}
/**
* On the client we only need to offer special cases for boolean attributes that
* have different names from their corresponding dom properties:
* - itemscope -> N/A
* - allowfullscreen -> allowFullscreen
* - formnovalidate -> formNoValidate
* - ismap -> isMap
* - nomodule -> noModule
* - novalidate -> noValidate
* - readonly -> readOnly
*/
const specialBooleanAttrs = `itemscope,allowfullscreen,formnovalidate,ismap,nomodule,novalidate,readonly`;
const isSpecialBooleanAttr = /*#__PURE__*/ makeMap(specialBooleanAttrs);
/**
* The full list is needed during SSR to produce the correct initial markup.
*/
const isBooleanAttr = /*#__PURE__*/ makeMap(specialBooleanAttrs +
`,async,autofocus,autoplay,controls,default,defer,disabled,hidden,` +
`loop,open,required,reversed,scoped,seamless,` +
`checked,muted,multiple,selected`);
/**
* Boolean attributes should be included if the value is truthy or ''.
* e.g. `<select multiple>` compiles to `{ multiple: '' }`
*/
function includeBooleanAttr(value) {
return !!value || value === '';
}
const unsafeAttrCharRE = /[>/="'\u0009\u000a\u000c\u0020]/;
const attrValidationCache = {};
function isSSRSafeAttrName(name) {
if (attrValidationCache.hasOwnProperty(name)) {
return attrValidationCache[name];
}
const isUnsafe = unsafeAttrCharRE.test(name);
if (isUnsafe) {
console.error(`unsafe attribute name: ${name}`);
}
return (attrValidationCache[name] = !isUnsafe);
}
const propsToAttrMap = {
acceptCharset: 'accept-charset',
className: 'class',
htmlFor: 'for',
httpEquiv: 'http-equiv'
};
/**
* CSS properties that accept plain numbers
*/
const isNoUnitNumericStyleProp = /*#__PURE__*/ makeMap(`animation-iteration-count,border-image-outset,border-image-slice,` +
`border-image-width,box-flex,box-flex-group,box-ordinal-group,column-count,` +
`columns,flex,flex-grow,flex-positive,flex-shrink,flex-negative,flex-order,` +
`grid-row,grid-row-end,grid-row-span,grid-row-start,grid-column,` +
`grid-column-end,grid-column-span,grid-column-start,font-weight,line-clamp,` +
`line-height,opacity,order,orphans,tab-size,widows,z-index,zoom,` +
// SVG
`fill-opacity,flood-opacity,stop-opacity,stroke-dasharray,stroke-dashoffset,` +
`stroke-miterlimit,stroke-opacity,stroke-width`);
function normalizeStyle(value) {
if (isArray(value)) {
const res = {};
for (let i = 0; i < value.length; i++) {
const item = value[i];
const normalized = isString(item)
? parseStringStyle(item)
: normalizeStyle(item);
if (normalized) {
for (const key in normalized) {
res[key] = normalized[key];
}
}
}
return res;
}
else if (isString(value)) {
return value;
}
else if (isObject(value)) {
return value;
}
}
const listDelimiterRE = /;(?![^(]*\))/g;
const propertyDelimiterRE = /:(.+)/;
function parseStringStyle(cssText) {
const ret = {};
cssText.split(listDelimiterRE).forEach(item => {
if (item) {
const tmp = item.split(propertyDelimiterRE);
tmp.length > 1 && (ret[tmp[0].trim()] = tmp[1].trim());
}
});
return ret;
}
function stringifyStyle(styles) {
let ret = '';
if (!styles || isString(styles)) {
return ret;
}
for (const key in styles) {
const value = styles[key];
const normalizedKey = key.startsWith(`--`) ? key : hyphenate(key);
if (isString(value) ||
(typeof value === 'number' && isNoUnitNumericStyleProp(normalizedKey))) {
// only render valid values
ret += `${normalizedKey}:${value};`;
}
}
return ret;
}
function normalizeClass(value) {
let res = '';
if (isString(value)) {
res = value;
}
else if (isArray(value)) {
for (let i = 0; i < value.length; i++) {
const normalized = normalizeClass(value[i]);
if (normalized) {
res += normalized + ' ';
}
}
}
else if (isObject(value)) {
for (const name in value) {
if (value[name]) {
res += name + ' ';
}
}
}
return res.trim();
}
// These tag configs are shared between compiler-dom and runtime-dom, so they
// https://developer.mozilla.org/en-US/docs/Web/HTML/Element
const HTML_TAGS = 'html,body,base,head,link,meta,style,title,address,article,aside,footer,' +
'header,h1,h2,h3,h4,h5,h6,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,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,' +
'summary,template,blockquote,iframe,tfoot';
// https://developer.mozilla.org/en-US/docs/Web/SVG/Element
const SVG_TAGS = 'svg,animate,animateMotion,animateTransform,circle,clipPath,color-profile,' +
'defs,desc,discard,ellipse,feBlend,feColorMatrix,feComponentTransfer,' +
'feComposite,feConvolveMatrix,feDiffuseLighting,feDisplacementMap,' +
'feDistanceLight,feDropShadow,feFlood,feFuncA,feFuncB,feFuncG,feFuncR,' +
'feGaussianBlur,feImage,feMerge,feMergeNode,feMorphology,feOffset,' +
'fePointLight,feSpecularLighting,feSpotLight,feTile,feTurbulence,filter,' +
'foreignObject,g,hatch,hatchpath,image,line,linearGradient,marker,mask,' +
'mesh,meshgradient,meshpatch,meshrow,metadata,mpath,path,pattern,' +
'polygon,polyline,radialGradient,rect,set,solidcolor,stop,switch,symbol,' +
'text,textPath,title,tspan,unknown,use,view';
const VOID_TAGS = 'area,base,br,col,embed,hr,img,input,link,meta,param,source,track,wbr';
/**
* Compiler only.
* Do NOT use in runtime code paths unless behind `true` flag.
*/
const isHTMLTag = /*#__PURE__*/ makeMap(HTML_TAGS);
/**
* Compiler only.
* Do NOT use in runtime code paths unless behind `true` flag.
*/
const isSVGTag = /*#__PURE__*/ makeMap(SVG_TAGS);
/**
* Compiler only.
* Do NOT use in runtime code paths unless behind `true` flag.
*/
const isVoidTag = /*#__PURE__*/ makeMap(VOID_TAGS);
const escapeRE = /["'&<>]/;
function escapeHtml(string) {
const str = '' + string;
const match = escapeRE.exec(str);
if (!match) {
return str;
}
let html = '';
let escaped;
let index;
let lastIndex = 0;
for (index = match.index; index < str.length; index++) {
switch (str.charCodeAt(index)) {
case 34: // "
escaped = '&quot;';
break;
case 38: // &
escaped = '&amp;';
break;
case 39: // '
escaped = '&#39;';
break;
case 60: // <
escaped = '&lt;';
break;
case 62: // >
escaped = '&gt;';
break;
default:
continue;
}
if (lastIndex !== index) {
html += str.slice(lastIndex, index);
}
lastIndex = index + 1;
html += escaped;
}
return lastIndex !== index ? html + str.slice(lastIndex, index) : html;
}
// https://www.w3.org/TR/html52/syntax.html#comments
const commentStripRE = /^-?>|<!--|-->|--!>|<!-$/g;
function escapeHtmlComment(src) {
return src.replace(commentStripRE, '');
}
function looseCompareArrays(a, b) {
if (a.length !== b.length)
return false;
let equal = true;
for (let i = 0; equal && i < a.length; i++) {
equal = looseEqual(a[i], b[i]);
}
return equal;
}
function looseEqual(a, b) {
if (a === b)
return true;
let aValidType = isDate(a);
let bValidType = isDate(b);
if (aValidType || bValidType) {
return aValidType && bValidType ? a.getTime() === b.getTime() : false;
}
aValidType = isSymbol(a);
bValidType = isSymbol(b);
if (aValidType || bValidType) {
return a === b;
}
aValidType = isArray(a);
bValidType = isArray(b);
if (aValidType || bValidType) {
return aValidType && bValidType ? looseCompareArrays(a, b) : false;
}
aValidType = isObject(a);
bValidType = isObject(b);
if (aValidType || bValidType) {
/* istanbul ignore if: this if will probably never be called */
if (!aValidType || !bValidType) {
return false;
}
const aKeysCount = Object.keys(a).length;
const bKeysCount = Object.keys(b).length;
if (aKeysCount !== bKeysCount) {
return false;
}
for (const key in a) {
const aHasKey = a.hasOwnProperty(key);
const bHasKey = b.hasOwnProperty(key);
if ((aHasKey && !bHasKey) ||
(!aHasKey && bHasKey) ||
!looseEqual(a[key], b[key])) {
return false;
}
}
}
return String(a) === String(b);
}
function looseIndexOf(arr, val) {
return arr.findIndex(item => looseEqual(item, val));
}
/**
* For converting {{ interpolation }} values to displayed strings.
* @private
*/
const toDisplayString = (val) => {
return isString(val)
? val
: val == null
? ''
: isArray(val) ||
(isObject(val) &&
(val.toString === objectToString || !isFunction(val.toString)))
? JSON.stringify(val, replacer, 2)
: String(val);
};
const replacer = (_key, val) => {
// can't use isRef here since @vue/shared has no deps
if (val && val.__v_isRef) {
return replacer(_key, val.value);
}
else if (isMap(val)) {
return {
[`Map(${val.size})`]: [...val.entries()].reduce((entries, [key, val]) => {
entries[`${key} =>`] = val;
return entries;
}, {})
};
}
else if (isSet(val)) {
return {
[`Set(${val.size})`]: [...val.values()]
};
}
else if (isObject(val) && !isArray(val) && !isPlainObject(val)) {
return String(val);
}
return val;
};
const EMPTY_OBJ = Object.freeze({})
;
const EMPTY_ARR = Object.freeze([]) ;
const NOOP = () => { };
/**
* Always return false.
*/
const NO = () => false;
const onRE = /^on[^a-z]/;
const isOn = (key) => onRE.test(key);
const isModelListener = (key) => key.startsWith('onUpdate:');
const extend = Object.assign;
const remove = (arr, el) => {
const i = arr.indexOf(el);
if (i > -1) {
arr.splice(i, 1);
}
};
const hasOwnProperty = Object.prototype.hasOwnProperty;
const hasOwn = (val, key) => hasOwnProperty.call(val, key);
const isArray = Array.isArray;
const isMap = (val) => toTypeString(val) === '[object Map]';
const isSet = (val) => toTypeString(val) === '[object Set]';
const isDate = (val) => toTypeString(val) === '[object Date]';
const isFunction = (val) => typeof val === 'function';
const isString = (val) => typeof val === 'string';
const isSymbol = (val) => typeof val === 'symbol';
const isObject = (val) => val !== null && typeof val === 'object';
const isPromise = (val) => {
return isObject(val) && isFunction(val.then) && isFunction(val.catch);
};
const objectToString = Object.prototype.toString;
const toTypeString = (value) => objectToString.call(value);
const toRawType = (value) => {
// extract "RawType" from strings like "[object RawType]"
return toTypeString(value).slice(8, -1);
};
const isPlainObject = (val) => toTypeString(val) === '[object Object]';
const isIntegerKey = (key) => isString(key) &&
key !== 'NaN' &&
key[0] !== '-' &&
'' + parseInt(key, 10) === key;
const isReservedProp = /*#__PURE__*/ makeMap(
// the leading comma is intentional so empty string "" is also included
',key,ref,ref_for,ref_key,' +
'onVnodeBeforeMount,onVnodeMounted,' +
'onVnodeBeforeUpdate,onVnodeUpdated,' +
'onVnodeBeforeUnmount,onVnodeUnmounted');
const isBuiltInDirective = /*#__PURE__*/ makeMap('bind,cloak,else-if,else,for,html,if,model,on,once,pre,show,slot,text,memo');
const cacheStringFunction = (fn) => {
const cache = Object.create(null);
return ((str) => {
const hit = cache[str];
return hit || (cache[str] = fn(str));
});
};
const camelizeRE = /-(\w)/g;
/**
* @private
*/
const camelize = cacheStringFunction((str) => {
return str.replace(camelizeRE, (_, c) => (c ? c.toUpperCase() : ''));
});
const hyphenateRE = /\B([A-Z])/g;
/**
* @private
*/
const hyphenate = cacheStringFunction((str) => str.replace(hyphenateRE, '-$1').toLowerCase());
/**
* @private
*/
const capitalize = cacheStringFunction((str) => str.charAt(0).toUpperCase() + str.slice(1));
/**
* @private
*/
const toHandlerKey = cacheStringFunction((str) => str ? `on${capitalize(str)}` : ``);
// compare whether a value has changed, accounting for NaN.
const hasChanged = (value, oldValue) => !Object.is(value, oldValue);
const invokeArrayFns = (fns, arg) => {
for (let i = 0; i < fns.length; i++) {
fns[i](arg);
}
};
const def = (obj, key, value) => {
Object.defineProperty(obj, key, {
configurable: true,
enumerable: false,
value
});
};
const toNumber = (val) => {
const n = parseFloat(val);
return isNaN(n) ? val : n;
};
let _globalThis;
const getGlobalThis = () => {
return (_globalThis ||
(_globalThis =
typeof globalThis !== 'undefined'
? globalThis
: typeof self !== 'undefined'
? self
: typeof window !== 'undefined'
? window
: typeof global !== 'undefined'
? global
: {}));
};
function warn(msg, ...args) {
console.warn(`[Vue warn] ${msg}`, ...args);
}
let activeEffectScope;
class EffectScope {
constructor(detached = false) {
/**
* @internal
*/
this.active = true;
/**
* @internal
*/
this.effects = [];
/**
* @internal
*/
this.cleanups = [];
if (!detached && activeEffectScope) {
this.parent = activeEffectScope;
this.index =
(activeEffectScope.scopes || (activeEffectScope.scopes = [])).push(this) - 1;
}
}
run(fn) {
if (this.active) {
const currentEffectScope = activeEffectScope;
try {
activeEffectScope = this;
return fn();
}
finally {
activeEffectScope = currentEffectScope;
}
}
else {
warn(`cannot run an inactive effect scope.`);
}
}
/**
* This should only be called on non-detached scopes
* @internal
*/
on() {
activeEffectScope = this;
}
/**
* This should only be called on non-detached scopes
* @internal
*/
off() {
activeEffectScope = this.parent;
}
stop(fromParent) {
if (this.active) {
let i, l;
for (i = 0, l = this.effects.length; i < l; i++) {
this.effects[i].stop();
}
for (i = 0, l = this.cleanups.length; i < l; i++) {
this.cleanups[i]();
}
if (this.scopes) {
for (i = 0, l = this.scopes.length; i < l; i++) {
this.scopes[i].stop(true);
}
}
// nested scope, dereference from parent to avoid memory leaks
if (this.parent && !fromParent) {
// optimized O(1) removal
const last = this.parent.scopes.pop();
if (last && last !== this) {
this.parent.scopes[this.index] = last;
last.index = this.index;
}
}
this.active = false;
}
}
}
function recordEffectScope(effect, scope = activeEffectScope) {
if (scope && scope.active) {
scope.effects.push(effect);
}
}
const createDep = (effects) => {
const dep = new Set(effects);
dep.w = 0;
dep.n = 0;
return dep;
};
const wasTracked = (dep) => (dep.w & trackOpBit) > 0;
const newTracked = (dep) => (dep.n & trackOpBit) > 0;
const initDepMarkers = ({ deps }) => {
if (deps.length) {
for (let i = 0; i < deps.length; i++) {
deps[i].w |= trackOpBit; // set was tracked
}
}
};
const finalizeDepMarkers = (effect) => {
const { deps } = effect;
if (deps.length) {
let ptr = 0;
for (let i = 0; i < deps.length; i++) {
const dep = deps[i];
if (wasTracked(dep) && !newTracked(dep)) {
dep.delete(effect);
}
else {
deps[ptr++] = dep;
}
// clear bits
dep.w &= ~trackOpBit;
dep.n &= ~trackOpBit;
}
deps.length = ptr;
}
};
const targetMap = new WeakMap();
// The number of effects currently being tracked recursively.
let effectTrackDepth = 0;
let trackOpBit = 1;
/**
* The bitwise track markers support at most 30 levels of recursion.
* This value is chosen to enable modern JS engines to use a SMI on all platforms.
* When recursion depth is greater, fall back to using a full cleanup.
*/
const maxMarkerBits = 30;
let activeEffect;
const ITERATE_KEY = Symbol('iterate' );
const MAP_KEY_ITERATE_KEY = Symbol('Map key iterate' );
class ReactiveEffect {
constructor(fn, scheduler = null, scope) {
this.fn = fn;
this.scheduler = scheduler;
this.active = true;
this.deps = [];
this.parent = undefined;
recordEffectScope(this, scope);
}
run() {
if (!this.active) {
return this.fn();
}
let parent = activeEffect;
let lastShouldTrack = shouldTrack;
while (parent) {
if (parent === this) {
return;
}
parent = parent.parent;
}
try {
this.parent = activeEffect;
activeEffect = this;
shouldTrack = true;
trackOpBit = 1 << ++effectTrackDepth;
if (effectTrackDepth <= maxMarkerBits) {
initDepMarkers(this);
}
else {
cleanupEffect(this);
}
return this.fn();
}
finally {
if (effectTrackDepth <= maxMarkerBits) {
finalizeDepMarkers(this);
}
trackOpBit = 1 << --effectTrackDepth;
activeEffect = this.parent;
shouldTrack = lastShouldTrack;
this.parent = undefined;
if (this.deferStop) {
this.stop();
}
}
}
stop() {
// stopped while running itself - defer the cleanup
if (activeEffect === this) {
this.deferStop = true;
}
else if (this.active) {
cleanupEffect(this);
if (this.onStop) {
this.onStop();
}
this.active = false;
}
}
}
function cleanupEffect(effect) {
const { deps } = effect;
if (deps.length) {
for (let i = 0; i < deps.length; i++) {
deps[i].delete(effect);
}
deps.length = 0;
}
}
let shouldTrack = true;
const trackStack = [];
function pauseTracking() {
trackStack.push(shouldTrack);
shouldTrack = false;
}
function resetTracking() {
const last = trackStack.pop();
shouldTrack = last === undefined ? true : last;
}
function track(target, type, key) {
if (shouldTrack && activeEffect) {
let depsMap = targetMap.get(target);
if (!depsMap) {
targetMap.set(target, (depsMap = new Map()));
}
let dep = depsMap.get(key);
if (!dep) {
depsMap.set(key, (dep = createDep()));
}
const eventInfo = { effect: activeEffect, target, type, key }
;
trackEffects(dep, eventInfo);
}
}
function trackEffects(dep, debuggerEventExtraInfo) {
let shouldTrack = false;
if (effectTrackDepth <= maxMarkerBits) {
if (!newTracked(dep)) {
dep.n |= trackOpBit; // set newly tracked
shouldTrack = !wasTracked(dep);
}
}
else {
// Full cleanup mode.
shouldTrack = !dep.has(activeEffect);
}
if (shouldTrack) {
dep.add(activeEffect);
activeEffect.deps.push(dep);
if (activeEffect.onTrack) {
activeEffect.onTrack({
effect: activeEffect,
...debuggerEventExtraInfo
});
}
}
}
function trigger(target, type, key, newValue, oldValue, oldTarget) {
const depsMap = targetMap.get(target);
if (!depsMap) {
// never been tracked
return;
}
let deps = [];
if (type === "clear" /* CLEAR */) {
// collection being cleared
// trigger all effects for target
deps = [...depsMap.values()];
}
else if (key === 'length' && isArray(target)) {
depsMap.forEach((dep, key) => {
if (key === 'length' || key >= newValue) {
deps.push(dep);
}
});
}
else {
// schedule runs for SET | ADD | DELETE
if (key !== void 0) {
deps.push(depsMap.get(key));
}
// also run for iteration key on ADD | DELETE | Map.SET
switch (type) {
case "add" /* ADD */:
if (!isArray(target)) {
deps.push(depsMap.get(ITERATE_KEY));
if (isMap(target)) {
deps.push(depsMap.get(MAP_KEY_ITERATE_KEY));
}
}
else if (isIntegerKey(key)) {
// new index added to array -> length changes
deps.push(depsMap.get('length'));
}
break;
case "delete" /* DELETE */:
if (!isArray(target)) {
deps.push(depsMap.get(ITERATE_KEY));
if (isMap(target)) {
deps.push(depsMap.get(MAP_KEY_ITERATE_KEY));
}
}
break;
case "set" /* SET */:
if (isMap(target)) {
deps.push(depsMap.get(ITERATE_KEY));
}
break;
}
}
const eventInfo = { target, type, key, newValue, oldValue, oldTarget }
;
if (deps.length === 1) {
if (deps[0]) {
{
triggerEffects(deps[0], eventInfo);
}
}
}
else {
const effects = [];
for (const dep of deps) {
if (dep) {
effects.push(...dep);
}
}
{
triggerEffects(createDep(effects), eventInfo);
}
}
}
function triggerEffects(dep, debuggerEventExtraInfo) {
// spread into array for stabilization
const effects = isArray(dep) ? dep : [...dep];
for (const effect of effects) {
if (effect.computed) {
triggerEffect(effect, debuggerEventExtraInfo);
}
}
for (const effect of effects) {
if (!effect.computed) {
triggerEffect(effect, debuggerEventExtraInfo);
}
}
}
function triggerEffect(effect, debuggerEventExtraInfo) {
if (effect !== activeEffect || effect.allowRecurse) {
if (effect.onTrigger) {
effect.onTrigger(extend({ effect }, debuggerEventExtraInfo));
}
if (effect.scheduler) {
effect.scheduler();
}
else {
effect.run();
}
}
}
const isNonTrackableKeys = /*#__PURE__*/ makeMap(`__proto__,__v_isRef,__isVue`);
const builtInSymbols = new Set(
/*#__PURE__*/
Object.getOwnPropertyNames(Symbol)
// ios10.x Object.getOwnPropertyNames(Symbol) can enumerate 'arguments' and 'caller'
// but accessing them on Symbol leads to TypeError because Symbol is a strict mode
// function
.filter(key => key !== 'arguments' && key !== 'caller')
.map(key => Symbol[key])
.filter(isSymbol));
const get = /*#__PURE__*/ createGetter();
const shallowGet = /*#__PURE__*/ createGetter(false, true);
const readonlyGet = /*#__PURE__*/ createGetter(true);
const shallowReadonlyGet = /*#__PURE__*/ createGetter(true, true);
const arrayInstrumentations = /*#__PURE__*/ createArrayInstrumentations();
function createArrayInstrumentations() {
const instrumentations = {};
['includes', 'indexOf', 'lastIndexOf'].forEach(key => {
instrumentations[key] = function (...args) {
const arr = toRaw(this);
for (let i = 0, l = this.length; i < l; i++) {
track(arr, "get" /* GET */, i + '');
}
// we run the method using the original args first (which may be reactive)
const res = arr[key](...args);
if (res === -1 || res === false) {
// if that didn't work, run it again using raw values.
return arr[key](...args.map(toRaw));
}
else {
return res;
}
};
});
['push', 'pop', 'shift', 'unshift', 'splice'].forEach(key => {
instrumentations[key] = function (...args) {
pauseTracking();
const res = toRaw(this)[key].apply(this, args);
resetTracking();
return res;
};
});
return instrumentations;
}
function createGetter(isReadonly = false, shallow = false) {
return function get(target, key, receiver) {
if (key === "__v_isReactive" /* IS_REACTIVE */) {
return !isReadonly;
}
else if (key === "__v_isReadonly" /* IS_READONLY */) {
return isReadonly;
}
else if (key === "__v_isShallow" /* IS_SHALLOW */) {
return shallow;
}
else if (key === "__v_raw" /* RAW */ &&
receiver ===
(isReadonly
? shallow
? shallowReadonlyMap
: readonlyMap
: shallow
? shallowReactiveMap
: reactiveMap).get(target)) {
return target;
}
const targetIsArray = isArray(target);
if (!isReadonly && targetIsArray && hasOwn(arrayInstrumentations, key)) {
return Reflect.get(arrayInstrumentations, key, receiver);
}
const res = Reflect.get(target, key, receiver);
if (isSymbol(key) ? builtInSymbols.has(key) : isNonTrackableKeys(key)) {
return res;
}
if (!isReadonly) {
track(target, "get" /* GET */, key);
}
if (shallow) {
return res;
}
if (isRef(res)) {
// ref unwrapping - skip unwrap for Array + integer key.
return targetIsArray && isIntegerKey(key) ? res : res.value;
}
if (isObject(res)) {
// Convert returned value into a proxy as well. we do the isObject check
// here to avoid invalid value warning. Also need to lazy access readonly
// and reactive here to avoid circular dependency.
return isReadonly ? readonly(res) : reactive(res);
}
return res;
};
}
const set = /*#__PURE__*/ createSetter();
const shallowSet = /*#__PURE__*/ createSetter(true);
function createSetter(shallow = false) {
return function set(target, key, value, receiver) {
let oldValue = target[key];
if (isReadonly(oldValue) && isRef(oldValue) && !isRef(value)) {
return false;
}
if (!shallow && !isReadonly(value)) {
if (!isShallow(value)) {
value = toRaw(value);
oldValue = toRaw(oldValue);
}
if (!isArray(target) && isRef(oldValue) && !isRef(value)) {
oldValue.value = value;
return true;
}
}
const hadKey = isArray(target) && isIntegerKey(key)
? Number(key) < target.length
: hasOwn(target, key);
const result = Reflect.set(target, key, value, receiver);
// don't trigger if target is something up in the prototype chain of original
if (target === toRaw(receiver)) {
if (!hadKey) {
trigger(target, "add" /* ADD */, key, value);
}
else if (hasChanged(value, oldValue)) {
trigger(target, "set" /* SET */, key, value, oldValue);
}
}
return result;
};
}
function deleteProperty(target, key) {
const hadKey = hasOwn(target, key);
const oldValue = target[key];
const result = Reflect.deleteProperty(target, key);
if (result && hadKey) {
trigger(target, "delete" /* DELETE */, key, undefined, oldValue);
}
return result;
}
function has(target, key) {
const result = Reflect.has(target, key);
if (!isSymbol(key) || !builtInSymbols.has(key)) {
track(target, "has" /* HAS */, key);
}
return result;
}
function ownKeys(target) {
track(target, "iterate" /* ITERATE */, isArray(target) ? 'length' : ITERATE_KEY);
return Reflect.ownKeys(target);
}
const mutableHandlers = {
get,
set,
deleteProperty,
has,
ownKeys
};
const readonlyHandlers = {
get: readonlyGet,
set(target, key) {
{
warn(`Set operation on key "${String(key)}" failed: target is readonly.`, target);
}
return true;
},
deleteProperty(target, key) {
{
warn(`Delete operation on key "${String(key)}" failed: target is readonly.`, target);
}
return true;
}
};
const shallowReactiveHandlers = /*#__PURE__*/ extend({}, mutableHandlers, {
get: shallowGet,
set: shallowSet
});
// Props handlers are special in the sense that it should not unwrap top-level
// refs (in order to allow refs to be explicitly passed down), but should
// retain the reactivity of the normal readonly object.
const shallowReadonlyHandlers = /*#__PURE__*/ extend({}, readonlyHandlers, {
get: shallowReadonlyGet
});
const toShallow = (value) => value;
const getProto = (v) => Reflect.getPrototypeOf(v);
function get$1(target, key, isReadonly = false, isShallow = false) {
// #1772: readonly(reactive(Map)) should return readonly + reactive version
// of the value
target = target["__v_raw" /* RAW */];
const rawTarget = toRaw(target);
const rawKey = toRaw(key);
if (!isReadonly) {
if (key !== rawKey) {
track(rawTarget, "get" /* GET */, key);
}
track(rawTarget, "get" /* GET */, rawKey);
}
const { has } = getProto(rawTarget);
const wrap = isShallow ? toShallow : isReadonly ? toReadonly : toReactive;
if (has.call(rawTarget, key)) {
return wrap(target.get(key));
}
else if (has.call(rawTarget, rawKey)) {
return wrap(target.get(rawKey));
}
else if (target !== rawTarget) {
// #3602 readonly(reactive(Map))
// ensure that the nested reactive `Map` can do tracking for itself
target.get(key);
}
}
function has$1(key, isReadonly = false) {
const target = this["__v_raw" /* RAW */];
const rawTarget = toRaw(target);
const rawKey = toRaw(key);
if (!isReadonly) {
if (key !== rawKey) {
track(rawTarget, "has" /* HAS */, key);
}
track(rawTarget, "has" /* HAS */, rawKey);
}
return key === rawKey
? target.has(key)
: target.has(key) || target.has(rawKey);
}
function size(target, isReadonly = false) {
target = target["__v_raw" /* RAW */];
!isReadonly && track(toRaw(target), "iterate" /* ITERATE */, ITERATE_KEY);
return Reflect.get(target, 'size', target);
}
function add(value) {
value = toRaw(value);
const target = toRaw(this);
const proto = getProto(target);
const hadKey = proto.has.call(target, value);
if (!hadKey) {
target.add(value);
trigger(target, "add" /* ADD */, value, value);
}
return this;
}
function set$1(key, value) {
value = toRaw(value);
const target = toRaw(this);
const { has, get } = getProto(target);
let hadKey = has.call(target, key);
if (!hadKey) {
key = toRaw(key);
hadKey = has.call(target, key);
}
else {
checkIdentityKeys(target, has, key);
}
const oldValue = get.call(target, key);
target.set(key, value);
if (!hadKey) {
trigger(target, "add" /* ADD */, key, value);
}
else if (hasChanged(value, oldValue)) {
trigger(target, "set" /* SET */, key, value, oldValue);
}
return this;
}
function deleteEntry(key) {
const target = toRaw(this);
const { has, get } = getProto(target);
let hadKey = has.call(target, key);
if (!hadKey) {
key = toRaw(key);
hadKey = has.call(target, key);
}
else {
checkIdentityKeys(target, has, key);
}
const oldValue = get ? get.call(target, key) : undefined;
// forward the operation before queueing reactions
const result = target.delete(key);
if (hadKey) {
trigger(target, "delete" /* DELETE */, key, undefined, oldValue);
}
return result;
}
function clear() {
const target = toRaw(this);
const hadItems = target.size !== 0;
const oldTarget = isMap(target)
? new Map(target)
: new Set(target)
;
// forward the operation before queueing reactions
const result = target.clear();
if (hadItems) {
trigger(target, "clear" /* CLEAR */, undefined, undefined, oldTarget);
}
return result;
}
function createForEach(isReadonly, isShallow) {
return function forEach(callback, thisArg) {
const observed = this;
const target = observed["__v_raw" /* RAW */];
const rawTarget = toRaw(target);
const wrap = isShallow ? toShallow : isReadonly ? toReadonly : toReactive;
!isReadonly && track(rawTarget, "iterate" /* ITERATE */, ITERATE_KEY);
return target.forEach((value, key) => {
// important: make sure the callback is
// 1. invoked with the reactive map as `this` and 3rd arg
// 2. the value received should be a corresponding reactive/readonly.
return callback.call(thisArg, wrap(value), wrap(key), observed);
});
};
}
function createIterableMethod(method, isReadonly, isShallow) {
return function (...args) {
const target = this["__v_raw" /* RAW */];
const rawTarget = toRaw(target);
const targetIsMap = isMap(rawTarget);
const isPair = method === 'entries' || (method === Symbol.iterator && targetIsMap);
const isKeyOnly = method === 'keys' && targetIsMap;
const innerIterator = target[method](...args);
const wrap = isShallow ? toShallow : isReadonly ? toReadonly : toReactive;
!isReadonly &&
track(rawTarget, "iterate" /* ITERATE */, isKeyOnly ? MAP_KEY_ITERATE_KEY : ITERATE_KEY);
// return a wrapped iterator which returns observed versions of the
// values emitted from the real iterator
return {
// iterator protocol
next() {
const { value, done } = innerIterator.next();
return done
? { value, done }
: {
value: isPair ? [wrap(value[0]), wrap(value[1])] : wrap(value),
done
};
},
// iterable protocol
[Symbol.iterator]() {
return this;
}
};
};
}
function createReadonlyMethod(type) {
return function (...args) {
{
const key = args[0] ? `on key "${args[0]}" ` : ``;
console.warn(`${capitalize(type)} operation ${key}failed: target is readonly.`, toRaw(this));
}
return type === "delete" /* DELETE */ ? false : this;
};
}
function createInstrumentations() {
const mutableInstrumentations = {
get(key) {
return get$1(this, key);
},
get size() {
return size(this);
},
has: has$1,
add,
set: set$1,
delete: deleteEntry,
clear,
forEach: createForEach(false, false)
};
const shallowInstrumentations = {
get(key) {
return get$1(this, key, false, true);
},
get size() {
return size(this);
},
has: has$1,
add,
set: set$1,
delete: deleteEntry,
clear,
forEach: createForEach(false, true)
};
const readonlyInstrumentations = {
get(key) {
return get$1(this, key, true);
},
get size() {
return size(this, true);
},
has(key) {
return has$1.call(this, key, true);
},
add: createReadonlyMethod("add" /* ADD */),
set: createReadonlyMethod("set" /* SET */),
delete: createReadonlyMethod("delete" /* DELETE */),
clear: createReadonlyMethod("clear" /* CLEAR */),
forEach: createForEach(true, false)
};
const shallowReadonlyInstrumentations = {
get(key) {
return get$1(this, key, true, true);
},
get size() {
return size(this, true);
},
has(key) {
return has$1.call(this, key, true);
},
add: createReadonlyMethod("add" /* ADD */),
set: createReadonlyMethod("set" /* SET */),
delete: createReadonlyMethod("delete" /* DELETE */),
clear: createReadonlyMethod("clear" /* CLEAR */),
forEach: createForEach(true, true)
};
const iteratorMethods = ['keys', 'values', 'entries', Symbol.iterator];
iteratorMethods.forEach(method => {
mutableInstrumentations[method] = createIterableMethod(method, false, false);
readonlyInstrumentations[method] = createIterableMethod(method, true, false);
shallowInstrumentations[method] = createIterableMethod(method, false, true);
shallowReadonlyInstrumentations[method] = createIterableMethod(method, true, true);
});
return [
mutableInstrumentations,
readonlyInstrumentations,
shallowInstrumentations,
shallowReadonlyInstrumentations
];
}
const [mutableInstrumentations, readonlyInstrumentations, shallowInstrumentations, shallowReadonlyInstrumentations] = /* #__PURE__*/ createInstrumentations();
function createInstrumentationGetter(isReadonly, shallow) {
const instrumentations = shallow
? isReadonly
? shallowReadonlyInstrumentations
: shallowInstrumentations
: isReadonly
? readonlyInstrumentations
: mutableInstrumentations;
return (target, key, receiver) => {
if (key === "__v_isReactive" /* IS_REACTIVE */) {
return !isReadonly;
}
else if (key === "__v_isReadonly" /* IS_READONLY */) {
return isReadonly;
}
else if (key === "__v_raw" /* RAW */) {
return target;
}
return Reflect.get(hasOwn(instrumentations, key) && key in target
? instrumentations
: target, key, receiver);
};
}
const mutableCollectionHandlers = {
get: /*#__PURE__*/ createInstrumentationGetter(false, false)
};
const shallowCollectionHandlers = {
get: /*#__PURE__*/ createInstrumentationGetter(false, true)
};
const readonlyCollectionHandlers = {
get: /*#__PURE__*/ createInstrumentationGetter(true, false)
};
const shallowReadonlyCollectionHandlers = {
get: /*#__PURE__*/ createInstrumentationGetter(true, true)
};
function checkIdentityKeys(target, has, key) {
const rawKey = toRaw(key);
if (rawKey !== key && has.call(target, rawKey)) {
const type = toRawType(target);
console.warn(`Reactive ${type} contains both the raw and reactive ` +
`versions of the same object${type === `Map` ? ` as keys` : ``}, ` +
`which can lead to inconsistencies. ` +
`Avoid differentiating between the raw and reactive versions ` +
`of an object and only use the reactive version if possible.`);
}
}
const reactiveMap = new WeakMap();
const shallowReactiveMap = new WeakMap();
const readonlyMap = new WeakMap();
const shallowReadonlyMap = new WeakMap();
function targetTypeMap(rawType) {
switch (rawType) {
case 'Object':
case 'Array':
return 1 /* COMMON */;
case 'Map':
case 'Set':
case 'WeakMap':
case 'WeakSet':
return 2 /* COLLECTION */;
default:
return 0 /* INVALID */;
}
}
function getTargetType(value) {
return value["__v_skip" /* SKIP */] || !Object.isExtensible(value)
? 0 /* INVALID */
: targetTypeMap(toRawType(value));
}
function reactive(target) {
// if trying to observe a readonly proxy, return the readonly version.
if (isReadonly(target)) {
return target;
}
return createReactiveObject(target, false, mutableHandlers, mutableCollectionHandlers, reactiveMap);
}
/**
* Return a shallowly-reactive copy of the original object, where only the root
* level properties are reactive. It also does not auto-unwrap refs (even at the
* root level).
*/
function shallowReactive(target) {
return createReactiveObject(target, false, shallowReactiveHandlers, shallowCollectionHandlers, shallowReactiveMap);
}
/**
* Creates a readonly copy of the original object. Note the returned copy is not
* made reactive, but `readonly` can be called on an already reactive object.
*/
function readonly(target) {
return createReactiveObject(target, true, readonlyHandlers, readonlyCollectionHandlers, readonlyMap);
}
/**
* Returns a reactive-copy of the original object, where only the root level
* properties are readonly, and does NOT unwrap refs nor recursively convert
* returned properties.
* This is used for creating the props proxy object for stateful components.
*/
function shallowReadonly(target) {
return createReactiveObject(target, true, shallowReadonlyHandlers, shallowReadonlyCollectionHandlers, shallowReadonlyMap);
}
function createReactiveObject(target, isReadonly, baseHandlers, collectionHandlers, proxyMap) {
if (!isObject(target)) {
{
console.warn(`value cannot be made reactive: ${String(target)}`);
}
return target;
}
// target is already a Proxy, return it.
// exception: calling readonly() on a reactive object
if (target["__v_raw" /* RAW */] &&
!(isReadonly && target["__v_isReactive" /* IS_REACTIVE */])) {
return target;
}
// target already has corresponding Proxy
const existingProxy = proxyMap.get(target);
if (existingProxy) {
return existingProxy;
}
// only specific value types can be observed.
const targetType = getTargetType(target);
if (targetType === 0 /* INVALID */) {
return target;
}
const proxy = new Proxy(target, targetType === 2 /* COLLECTION */ ? collectionHandlers : baseHandlers);
proxyMap.set(target, proxy);
return proxy;
}
function isReactive(value) {
if (isReadonly(value)) {
return isReactive(value["__v_raw" /* RAW */]);
}
return !!(value && value["__v_isReactive" /* IS_REACTIVE */]);
}
function isReadonly(value) {
return !!(value && value["__v_isReadonly" /* IS_READONLY */]);
}
function isShallow(value) {
return !!(value && value["__v_isShallow" /* IS_SHALLOW */]);
}
function isProxy(value) {
return isReactive(value) || isReadonly(value);
}
function toRaw(observed) {
const raw = observed && observed["__v_raw" /* RAW */];
return raw ? toRaw(raw) : observed;
}
function markRaw(value) {
def(value, "__v_skip" /* SKIP */, true);
return value;
}
const toReactive = (value) => isObject(value) ? reactive(value) : value;
const toReadonly = (value) => isObject(value) ? readonly(value) : value;
function trackRefValue(ref) {
if (shouldTrack && activeEffect) {
ref = toRaw(ref);
{
trackEffects(ref.dep || (ref.dep = createDep()), {
target: ref,
type: "get" /* GET */,
key: 'value'
});
}
}
}
function triggerRefValue(ref, newVal) {
ref = toRaw(ref);
if (ref.dep) {
{
triggerEffects(ref.dep, {
target: ref,
type: "set" /* SET */,
key: 'value',
newValue: newVal
});
}
}
}
function isRef(r) {
return !!(r && r.__v_isRef === true);
}
function unref(ref) {
return isRef(ref) ? ref.value : ref;
}
const shallowUnwrapHandlers = {
get: (target, key, receiver) => unref(Reflect.get(target, key, receiver)),
set: (target, key, value, receiver) => {
const oldValue = target[key];
if (isRef(oldValue) && !isRef(value)) {
oldValue.value = value;
return true;
}
else {
return Reflect.set(target, key, value, receiver);
}
}
};
function proxyRefs(objectWithRefs) {
return isReactive(objectWithRefs)
? objectWithRefs
: new Proxy(objectWithRefs, shallowUnwrapHandlers);
}
class ComputedRefImpl {
constructor(getter, _setter, isReadonly, isSSR) {
this._setter = _setter;
this.dep = undefined;
this.__v_isRef = true;
this._dirty = true;
this.effect = new ReactiveEffect(getter, () => {
if (!this._dirty) {
this._dirty = true;
triggerRefValue(this);
}
});
this.effect.computed = this;
this.effect.active = this._cacheable = !isSSR;
this["__v_isReadonly" /* IS_READONLY */] = isReadonly;
}
get value() {
// the computed ref may get wrapped by other proxies e.g. readonly() #3376
const self = toRaw(this);
trackRefValue(self);
if (self._dirty || !self._cacheable) {
self._dirty = false;
self._value = self.effect.run();
}
return self._value;
}
set value(newValue) {
this._setter(newValue);
}
}
function computed(getterOrOptions, debugOptions, isSSR = false) {
let getter;
let setter;
const onlyGetter = isFunction(getterOrOptions);
if (onlyGetter) {
getter = getterOrOptions;
setter = () => {
console.warn('Write operation failed: computed value is readonly');
}
;
}
else {
getter = getterOrOptions.get;
setter = getterOrOptions.set;
}
const cRef = new ComputedRefImpl(getter, setter, onlyGetter || !setter, isSSR);
if (debugOptions && !isSSR) {
cRef.effect.onTrack = debugOptions.onTrack;
cRef.effect.onTrigger = debugOptions.onTrigger;
}
return cRef;
}
const stack = [];
function pushWarningContext(vnode) {
stack.push(vnode);
}
function popWarningContext() {
stack.pop();
}
function warn$1(msg, ...args) {
// avoid props formatting or warn handler tracking deps that might be mutated
// during patch, leading to infinite recursion.
pauseTracking();
const instance = stack.length ? stack[stack.length - 1].component : null;
const appWarnHandler = instance && instance.appContext.config.warnHandler;
const trace = getComponentTrace();
if (appWarnHandler) {
callWithErrorHandling(appWarnHandler, instance, 11 /* APP_WARN_HANDLER */, [
msg + args.join(''),
instance && instance.proxy,
trace
.map(({ vnode }) => `at <${formatComponentName(instance, vnode.type)}>`)
.join('\n'),
trace
]);
}
else {
const warnArgs = [`[Vue warn]: ${msg}`, ...args];
/* istanbul ignore if */
if (trace.length &&
// avoid spamming console during tests
!false) {
warnArgs.push(`\n`, ...formatTrace(trace));
}
console.warn(...warnArgs);
}
resetTracking();
}
function getComponentTrace() {
let currentVNode = stack[stack.length - 1];
if (!currentVNode) {
return [];
}
// we can't just use the stack because it will be incomplete during updates
// that did not start from the root. Re-construct the parent chain using
// instance parent pointers.
const normalizedStack = [];
while (currentVNode) {
const last = normalizedStack[0];
if (last && last.vnode === currentVNode) {
last.recurseCount++;
}
else {
normalizedStack.push({
vnode: currentVNode,
recurseCount: 0
});
}
const parentInstance = currentVNode.component && currentVNode.component.parent;
currentVNode = parentInstance && parentInstance.vnode;
}
return normalizedStack;
}
/* istanbul ignore next */
function formatTrace(trace) {
const logs = [];
trace.forEach((entry, i) => {
logs.push(...(i === 0 ? [] : [`\n`]), ...formatTraceEntry(entry));
});
return logs;
}
function formatTraceEntry({ vnode, recurseCount }) {
const postfix = recurseCount > 0 ? `... (${recurseCount} recursive calls)` : ``;
const isRoot = vnode.component ? vnode.component.parent == null : false;
const open = ` at <${formatComponentName(vnode.component, vnode.type, isRoot)}`;
const close = `>` + postfix;
return vnode.props
? [open, ...formatProps(vnode.props), close]
: [open + close];
}
/* istanbul ignore next */
function formatProps(props) {
const res = [];
const keys = Object.keys(props);
keys.slice(0, 3).forEach(key => {
res.push(...formatProp(key, props[key]));
});
if (keys.length > 3) {
res.push(` ...`);
}
return res;
}
/* istanbul ignore next */
function formatProp(key, value, raw) {
if (isString(value)) {
value = JSON.stringify(value);
return raw ? value : [`${key}=${value}`];
}
else if (typeof value === 'number' ||
typeof value === 'boolean' ||
value == null) {
return raw ? value : [`${key}=${value}`];
}
else if (isRef(value)) {
value = formatProp(key, toRaw(value.value), true);
return raw ? value : [`${key}=Ref<`, value, `>`];
}
else if (isFunction(value)) {
return [`${key}=fn${value.name ? `<${value.name}>` : ``}`];
}
else {
value = toRaw(value);
return raw ? value : [`${key}=`, value];
}
}
const ErrorTypeStrings = {
["sp" /* SERVER_PREFETCH */]: 'serverPrefetch hook',
["bc" /* BEFORE_CREATE */]: 'beforeCreate hook',
["c" /* CREATED */]: 'created hook',
["bm" /* BEFORE_MOUNT */]: 'beforeMount hook',
["m" /* MOUNTED */]: 'mounted hook',
["bu" /* BEFORE_UPDATE */]: 'beforeUpdate hook',
["u" /* UPDATED */]: 'updated',
["bum" /* BEFORE_UNMOUNT */]: 'beforeUnmount hook',
["um" /* UNMOUNTED */]: 'unmounted hook',
["a" /* ACTIVATED */]: 'activated hook',
["da" /* DEACTIVATED */]: 'deactivated hook',
["ec" /* ERROR_CAPTURED */]: 'errorCaptured hook',
["rtc" /* RENDER_TRACKED */]: 'renderTracked hook',
["rtg" /* RENDER_TRIGGERED */]: 'renderTriggered hook',
[0 /* SETUP_FUNCTION */]: 'setup function',
[1 /* RENDER_FUNCTION */]: 'render function',
[2 /* WATCH_GETTER */]: 'watcher getter',
[3 /* WATCH_CALLBACK */]: 'watcher callback',
[4 /* WATCH_CLEANUP */]: 'watcher cleanup function',
[5 /* NATIVE_EVENT_HANDLER */]: 'native event handler',
[6 /* COMPONENT_EVENT_HANDLER */]: 'component event handler',
[7 /* VNODE_HOOK */]: 'vnode hook',
[8 /* DIRECTIVE_HOOK */]: 'directive hook',
[9 /* TRANSITION_HOOK */]: 'transition hook',
[10 /* APP_ERROR_HANDLER */]: 'app errorHandler',
[11 /* APP_WARN_HANDLER */]: 'app warnHandler',
[12 /* FUNCTION_REF */]: 'ref function',
[13 /* ASYNC_COMPONENT_LOADER */]: 'async component loader',
[14 /* SCHEDULER */]: 'scheduler flush. This is likely a Vue internals bug. ' +
'Please open an issue at https://new-issue.vuejs.org/?repo=vuejs/core'
};
function callWithErrorHandling(fn, instance, type, args) {
let res;
try {
res = args ? fn(...args) : fn();
}
catch (err) {
handleError(err, instance, type);
}
return res;
}
function callWithAsyncErrorHandling(fn, instance, type, args) {
if (isFunction(fn)) {
const res = callWithErrorHandling(fn, instance, type, args);
if (res && isPromise(res)) {
res.catch(err => {
handleError(err, instance, type);
});
}
return res;
}
const values = [];
for (let i = 0; i < fn.length; i++) {
values.push(callWithAsyncErrorHandling(fn[i], instance, type, args));
}
return values;
}
function handleError(err, instance, type, throwInDev = true) {
const contextVNode = instance ? instance.vnode : null;
if (instance) {
let cur = instance.parent;
// the exposed instance is the render proxy to keep it consistent with 2.x
const exposedInstance = instance.proxy;
// in production the hook receives only the error code
const errorInfo = ErrorTypeStrings[type] ;
while (cur) {
const errorCapturedHooks = cur.ec;
if (errorCapturedHooks) {
for (let i = 0; i < errorCapturedHooks.length; i++) {
if (errorCapturedHooks[i](err, exposedInstance, errorInfo) === false) {
return;
}
}
}
cur = cur.parent;
}
// app-level handling
const appErrorHandler = instance.appContext.config.errorHandler;
if (appErrorHandler) {
callWithErrorHandling(appErrorHandler, null, 10 /* APP_ERROR_HANDLER */, [err, exposedInstance, errorInfo]);
return;
}
}
logError(err, type, contextVNode, throwInDev);
}
function logError(err, type, contextVNode, throwInDev = true) {
{
const info = ErrorTypeStrings[type];
if (contextVNode) {
pushWarningContext(contextVNode);
}
warn$1(`Unhandled error${info ? ` during execution of ${info}` : ``}`);
if (contextVNode) {
popWarningContext();
}
// crash in dev by default so it's more noticeable
if (throwInDev) {
throw err;
}
else {
console.error(err);
}
}
}
let isFlushing = false;
let isFlushPending = false;
const queue = [];
let flushIndex = 0;
const pendingPreFlushCbs = [];
let activePreFlushCbs = null;
let preFlushIndex = 0;
const pendingPostFlushCbs = [];
let activePostFlushCbs = null;
let postFlushIndex = 0;
const resolvedPromise = /*#__PURE__*/ Promise.resolve();
let currentFlushPromise = null;
let currentPreFlushParentJob = null;
const RECURSION_LIMIT = 100;
function nextTick(fn) {
const p = currentFlushPromise || resolvedPromise;
return fn ? p.then(this ? fn.bind(this) : fn) : p;
}
// #2768
// Use binary-search to find a suitable position in the queue,
// so that the queue maintains the increasing order of job's id,
// which can prevent the job from being skipped and also can avoid repeated patching.
function findInsertionIndex(id) {
// the start index should be `flushIndex + 1`
let start = flushIndex + 1;
let end = queue.length;
while (start < end) {
const middle = (start + end) >>> 1;
const middleJobId = getId(queue[middle]);
middleJobId < id ? (start = middle + 1) : (end = middle);
}
return start;
}
function queueJob(job) {
// the dedupe search uses the startIndex argument of Array.includes()
// by default the search index includes the current job that is being run
// so it cannot recursively trigger itself again.
// if the job is a watch() callback, the search will start with a +1 index to
// allow it recursively trigger itself - it is the user's responsibility to
// ensure it doesn't end up in an infinite loop.
if ((!queue.length ||
!queue.includes(job, isFlushing && job.allowRecurse ? flushIndex + 1 : flushIndex)) &&
job !== currentPreFlushParentJob) {
if (job.id == null) {
queue.push(job);
}
else {
queue.splice(findInsertionIndex(job.id), 0, job);
}
queueFlush();
}
}
function queueFlush() {
if (!isFlushing && !isFlushPending) {
isFlushPending = true;
currentFlushPromise = resolvedPromise.then(flushJobs);
}
}
function invalidateJob(job) {
const i = queue.indexOf(job);
if (i > flushIndex) {
queue.splice(i, 1);
}
}
function queueCb(cb, activeQueue, pendingQueue, index) {
if (!isArray(cb)) {
if (!activeQueue ||
!activeQueue.includes(cb, cb.allowRecurse ? index + 1 : index)) {
pendingQueue.push(cb);
}
}
else {
// if cb is an array, it is a component lifecycle hook which can only be
// triggered by a job, which is already deduped in the main queue, so
// we can skip duplicate check here to improve perf
pendingQueue.push(...cb);
}
queueFlush();
}
function queuePreFlushCb(cb) {
queueCb(cb, activePreFlushCbs, pendingPreFlushCbs, preFlushIndex);
}
function queuePostFlushCb(cb) {
queueCb(cb, activePostFlushCbs, pendingPostFlushCbs, postFlushIndex);
}
function flushPreFlushCbs(seen, parentJob = null) {
if (pendingPreFlushCbs.length) {
currentPreFlushParentJob = parentJob;
activePreFlushCbs = [...new Set(pendingPreFlushCbs)];
pendingPreFlushCbs.length = 0;
{
seen = seen || new Map();
}
for (preFlushIndex = 0; preFlushIndex < activePreFlushCbs.length; preFlushIndex++) {
if (checkRecursiveUpdates(seen, activePreFlushCbs[preFlushIndex])) {
continue;
}
activePreFlushCbs[preFlushIndex]();
}
activePreFlushCbs = null;
preFlushIndex = 0;
currentPreFlushParentJob = null;
// recursively flush until it drains
flushPreFlushCbs(seen, parentJob);
}
}
function flushPostFlushCbs(seen) {
// flush any pre cbs queued during the flush (e.g. pre watchers)
flushPreFlushCbs();
if (pendingPostFlushCbs.length) {
const deduped = [...new Set(pendingPostFlushCbs)];
pendingPostFlushCbs.length = 0;
// #1947 already has active queue, nested flushPostFlushCbs call
if (activePostFlushCbs) {
activePostFlushCbs.push(...deduped);
return;
}
activePostFlushCbs = deduped;
{
seen = seen || new Map();
}
activePostFlushCbs.sort((a, b) => getId(a) - getId(b));
for (postFlushIndex = 0; postFlushIndex < activePostFlushCbs.length; postFlushIndex++) {
if (checkRecursiveUpdates(seen, activePostFlushCbs[postFlushIndex])) {
continue;
}
activePostFlushCbs[postFlushIndex]();
}
activePostFlushCbs = null;
postFlushIndex = 0;
}
}
const getId = (job) => job.id == null ? Infinity : job.id;
function flushJobs(seen) {
isFlushPending = false;
isFlushing = true;
{
seen = seen || new Map();
}
flushPreFlushCbs(seen);
// Sort queue before flush.
// This ensures that:
// 1. Components are updated from parent to child. (because parent is always
// created before the child so its render effect will have smaller
// priority number)
// 2. If a component is unmounted during a parent component's update,
// its update can be skipped.
queue.sort((a, b) => getId(a) - getId(b));
// conditional usage of checkRecursiveUpdate must be determined out of
// try ... catch block since Rollup by default de-optimizes treeshaking
// inside try-catch. This can leave all warning code unshaked. Although
// they would get eventually shaken by a minifier like terser, some minifiers
// would fail to do that (e.g. https://github.com/evanw/esbuild/issues/1610)
const check = (job) => checkRecursiveUpdates(seen, job)
;
try {
for (flushIndex = 0; flushIndex < queue.length; flushIndex++) {
const job = queue[flushIndex];
if (job && job.active !== false) {
if (true && check(job)) {
continue;
}
// console.log(`running:`, job.id)
callWithErrorHandling(job, null, 14 /* SCHEDULER */);
}
}
}
finally {
flushIndex = 0;
queue.length = 0;
flushPostFlushCbs(seen);
isFlushing = false;
currentFlushPromise = null;
// some postFlushCb queued jobs!
// keep flushing until it drains.
if (queue.length ||
pendingPreFlushCbs.length ||
pendingPostFlushCbs.length) {
flushJobs(seen);
}
}
}
function checkRecursiveUpdates(seen, fn) {
if (!seen.has(fn)) {
seen.set(fn, 1);
}
else {
const count = seen.get(fn);
if (count > RECURSION_LIMIT) {
const instance = fn.ownerInstance;
const componentName = instance && getComponentName(instance.type);
warn$1(`Maximum recursive updates exceeded${componentName ? ` in component <${componentName}>` : ``}. ` +
`This means you have a reactive effect that is mutating its own ` +
`dependencies and thus recursively triggering itself. Possible sources ` +
`include component template, render function, updated hook or ` +
`watcher source function.`);
return true;
}
else {
seen.set(fn, count + 1);
}
}
}
/* eslint-disable no-restricted-globals */
let isHmrUpdating = false;
const hmrDirtyComponents = new Set();
// Expose the HMR runtime on the global object
// This makes it entirely tree-shakable without polluting the exports and makes
// it easier to be used in toolings like vue-loader
// Note: for a component to be eligible for HMR it also needs the __hmrId option
// to be set so that its instances can be registered / removed.
{
getGlobalThis().__VUE_HMR_RUNTIME__ = {
createRecord: tryWrap(createRecord),
rerender: tryWrap(rerender),
reload: tryWrap(reload)
};
}
const map = new Map();
function registerHMR(instance) {
const id = instance.type.__hmrId;
let record = map.get(id);
if (!record) {
createRecord(id, instance.type);
record = map.get(id);
}
record.instances.add(instance);
}
function unregisterHMR(instance) {
map.get(instance.type.__hmrId).instances.delete(instance);
}
function createRecord(id, initialDef) {
if (map.has(id)) {
return false;
}
map.set(id, {
initialDef: normalizeClassComponent(initialDef),
instances: new Set()
});
return true;
}
function normalizeClassComponent(component) {
return isClassComponent(component) ? component.__vccOpts : component;
}
function rerender(id, newRender) {
const record = map.get(id);
if (!record) {
return;
}
// update initial record (for not-yet-rendered component)
record.initialDef.render = newRender;
[...record.instances].forEach(instance => {
if (newRender) {
instance.render = newRender;
normalizeClassComponent(instance.type).render = newRender;
}
instance.renderCache = [];
// this flag forces child components with slot content to update
isHmrUpdating = true;
instance.update();
isHmrUpdating = false;
});
}
function reload(id, newComp) {
const record = map.get(id);
if (!record)
return;
newComp = normalizeClassComponent(newComp);
// update initial def (for not-yet-rendered components)
updateComponentDef(record.initialDef, newComp);
// create a snapshot which avoids the set being mutated during updates
const instances = [...record.instances];
for (const instance of instances) {
const oldComp = normalizeClassComponent(instance.type);
if (!hmrDirtyComponents.has(oldComp)) {
// 1. Update existing comp definition to match new one
if (oldComp !== record.initialDef) {
updateComponentDef(oldComp, newComp);
}
// 2. mark definition dirty. This forces the renderer to replace the
// component on patch.
hmrDirtyComponents.add(oldComp);
}
// 3. invalidate options resolution cache
instance.appContext.optionsCache.delete(instance.type);
// 4. actually update
if (instance.ceReload) {
// custom element
hmrDirtyComponents.add(oldComp);
instance.ceReload(newComp.styles);
hmrDirtyComponents.delete(oldComp);
}
else if (instance.parent) {
// 4. Force the parent instance to re-render. This will cause all updated
// components to be unmounted and re-mounted. Queue the update so that we
// don't end up forcing the same parent to re-render multiple times.
queueJob(instance.parent.update);
// instance is the inner component of an async custom element
// invoke to reset styles
if (instance.parent.type.__asyncLoader &&
instance.parent.ceReload) {
instance.parent.ceReload(newComp.styles);
}
}
else if (instance.appContext.reload) {
// root instance mounted via createApp() has a reload method
instance.appContext.reload();
}
else if (typeof window !== 'undefined') {
// root instance inside tree created via raw render(). Force reload.
window.location.reload();
}
else {
console.warn('[HMR] Root or manually mounted instance modified. Full reload required.');
}
}
// 5. make sure to cleanup dirty hmr components after update
queuePostFlushCb(() => {
for (const instance of instances) {
hmrDirtyComponents.delete(normalizeClassComponent(instance.type));
}
});
}
function updateComponentDef(oldComp, newComp) {
extend(oldComp, newComp);
for (const key in oldComp) {
if (key !== '__file' && !(key in newComp)) {
delete oldComp[key];
}
}
}
function tryWrap(fn) {
return (id, arg) => {
try {
return fn(id, arg);
}
catch (e) {
console.error(e);
console.warn(`[HMR] Something went wrong during Vue component hot-reload. ` +
`Full reload required.`);
}
};
}
let devtools;
let buffer = [];
let devtoolsNotInstalled = false;
function emit(event, ...args) {
if (devtools) {
devtools.emit(event, ...args);
}
else if (!devtoolsNotInstalled) {
buffer.push({ event, args });
}
}
function setDevtoolsHook(hook, target) {
var _a, _b;
devtools = hook;
if (devtools) {
devtools.enabled = true;
buffer.forEach(({ event, args }) => devtools.emit(event, ...args));
buffer = [];
}
else if (
// handle late devtools injection - only do this if we are in an actual
// browser environment to avoid the timer handle stalling test runner exit
// (#4815)
typeof window !== 'undefined' &&
// some envs mock window but not fully
window.HTMLElement &&
// also exclude jsdom
!((_b = (_a = window.navigator) === null || _a === void 0 ? void 0 : _a.userAgent) === null || _b === void 0 ? void 0 : _b.includes('jsdom'))) {
const replay = (target.__VUE_DEVTOOLS_HOOK_REPLAY__ =
target.__VUE_DEVTOOLS_HOOK_REPLAY__ || []);
replay.push((newHook) => {
setDevtoolsHook(newHook, target);
});
// clear buffer after 3s - the user probably doesn't have devtools installed
// at all, and keeping the buffer will cause memory leaks (#4738)
setTimeout(() => {
if (!devtools) {
target.__VUE_DEVTOOLS_HOOK_REPLAY__ = null;
devtoolsNotInstalled = true;
buffer = [];
}
}, 3000);
}
else {
// non-browser env, assume not installed
devtoolsNotInstalled = true;
buffer = [];
}
}
function devtoolsInitApp(app, version) {
emit("app:init" /* APP_INIT */, app, version, {
Fragment,
Text,
Comment,
Static
});
}
function devtoolsUnmountApp(app) {
emit("app:unmount" /* APP_UNMOUNT */, app);
}
const devtoolsComponentAdded = /*#__PURE__*/ createDevtoolsComponentHook("component:added" /* COMPONENT_ADDED */);
const devtoolsComponentUpdated =
/*#__PURE__*/ createDevtoolsComponentHook("component:updated" /* COMPONENT_UPDATED */);
const devtoolsComponentRemoved =
/*#__PURE__*/ createDevtoolsComponentHook("component:removed" /* COMPONENT_REMOVED */);
function createDevtoolsComponentHook(hook) {
return (component) => {
emit(hook, component.appContext.app, component.uid, component.parent ? component.parent.uid : undefined, component);
};
}
const devtoolsPerfStart = /*#__PURE__*/ createDevtoolsPerformanceHook("perf:start" /* PERFORMANCE_START */);
const devtoolsPerfEnd = /*#__PURE__*/ createDevtoolsPerformanceHook("perf:end" /* PERFORMANCE_END */);
function createDevtoolsPerformanceHook(hook) {
return (component, type, time) => {
emit(hook, component.appContext.app, component.uid, component, type, time);
};
}
function devtoolsComponentEmit(component, event, params) {
emit("component:emit" /* COMPONENT_EMIT */, component.appContext.app, component, event, params);
}
function emit$1(instance, event, ...rawArgs) {
if (instance.isUnmounted)
return;
const props = instance.vnode.props || EMPTY_OBJ;
{
const { emitsOptions, propsOptions: [propsOptions] } = instance;
if (emitsOptions) {
if (!(event in emitsOptions) &&
!(false )) {
if (!propsOptions || !(toHandlerKey(event) in propsOptions)) {
warn$1(`Component emitted event "${event}" but it is neither declared in ` +
`the emits option nor as an "${toHandlerKey(event)}" prop.`);
}
}
else {
const validator = emitsOptions[event];
if (isFunction(validator)) {
const isValid = validator(...rawArgs);
if (!isValid) {
warn$1(`Invalid event arguments: event validation failed for event "${event}".`);
}
}
}
}
}
let args = rawArgs;
const isModelListener = event.startsWith('update:');
// for v-model update:xxx events, apply modifiers on args
const modelArg = isModelListener && event.slice(7);
if (modelArg && modelArg in props) {
const modifiersKey = `${modelArg === 'modelValue' ? 'model' : modelArg}Modifiers`;
const { number, trim } = props[modifiersKey] || EMPTY_OBJ;
if (trim) {
args = rawArgs.map(a => a.trim());
}
if (number) {
args = rawArgs.map(toNumber);
}
}
{
devtoolsComponentEmit(instance, event, args);
}
{
const lowerCaseEvent = event.toLowerCase();
if (lowerCaseEvent !== event && props[toHandlerKey(lowerCaseEvent)]) {
warn$1(`Event "${lowerCaseEvent}" is emitted in component ` +
`${formatComponentName(instance, instance.type)} but the handler is registered for "${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 handlerName;
let handler = props[(handlerName = toHandlerKey(event))] ||
// also try camelCase event handler (#2249)
props[(handlerName = toHandlerKey(camelize(event)))];
// for v-model update:xxx events, also trigger kebab-case equivalent
// for props passed via kebab-case
if (!handler && isModelListener) {
handler = props[(handlerName = toHandlerKey(hyphenate(event)))];
}
if (handler) {
callWithAsyncErrorHandling(handler, instance, 6 /* COMPONENT_EVENT_HANDLER */, args);
}
const onceHandler = props[handlerName + `Once`];
if (onceHandler) {
if (!instance.emitted) {
instance.emitted = {};
}
else if (instance.emitted[handlerName]) {
return;
}
instance.emitted[handlerName] = true;
callWithAsyncErrorHandling(onceHandler, instance, 6 /* COMPONENT_EVENT_HANDLER */, args);
}
}
function normalizeEmitsOptions(comp, appContext, asMixin = false) {
const cache = appContext.emitsCache;
const cached = cache.get(comp);
if (cached !== undefined) {
return cached;
}
const raw = comp.emits;
let normalized = {};
// apply mixin/extends props
let hasExtends = false;
if (!isFunction(comp)) {
const extendEmits = (raw) => {
const normalizedFromExtend = normalizeEmitsOptions(raw, appContext, true);
if (normalizedFromExtend) {
hasExtends = true;
extend(normalized, normalizedFromExtend);
}
};
if (!asMixin && appContext.mixins.length) {
appContext.mixins.forEach(extendEmits);
}
if (comp.extends) {
extendEmits(comp.extends);
}
if (comp.mixins) {
comp.mixins.forEach(extendEmits);
}
}
if (!raw && !hasExtends) {
cache.set(comp, null);
return null;
}
if (isArray(raw)) {
raw.forEach(key => (normalized[key] = null));
}
else {
extend(normalized, raw);
}
cache.set(comp, normalized);
return normalized;
}
// Check if an incoming prop key is a declared emit event listener.
// e.g. With `emits: { click: null }`, props named `onClick` and `onclick` are
// both considered matched listeners.
function isEmitListener(options, key) {
if (!options || !isOn(key)) {
return false;
}
key = key.slice(2).replace(/Once$/, '');
return (hasOwn(options, key[0].toLowerCase() + key.slice(1)) ||
hasOwn(options, hyphenate(key)) ||
hasOwn(options, key));
}
/**
* mark the current rendering instance for asset resolution (e.g.
* resolveComponent, resolveDirective) during render
*/
let currentRenderingInstance = null;
let currentScopeId = null;
/**
* Note: rendering calls maybe nested. The function returns the parent rendering
* instance if present, which should be restored after the render is done:
*
* ```js
* const prev = setCurrentRenderingInstance(i)
* // ...render
* setCurrentRenderingInstance(prev)
* ```
*/
function setCurrentRenderingInstance(instance) {
const prev = currentRenderingInstance;
currentRenderingInstance = instance;
currentScopeId = (instance && instance.type.__scopeId) || null;
return prev;
}
/**
* Wrap a slot function to memoize current rendering instance
* @private compiler helper
*/
function withCtx(fn, ctx = currentRenderingInstance, isNonScopedSlot // false only
) {
if (!ctx)
return fn;
// already normalized
if (fn._n) {
return fn;
}
const renderFnWithContext = (...args) => {
// If a user calls a compiled slot inside a template expression (#1745), it
// can mess up block tracking, so by default we disable block tracking and
// force bail out when invoking a compiled slot (indicated by the ._d flag).
// This isn't necessary if rendering a compiled `<slot>`, so we flip the
// ._d flag off when invoking the wrapped fn inside `renderSlot`.
if (renderFnWithContext._d) {
setBlockTracking(-1);
}
const prevInstance = setCurrentRenderingInstance(ctx);
const res = fn(...args);
setCurrentRenderingInstance(prevInstance);
if (renderFnWithContext._d) {
setBlockTracking(1);
}
{
devtoolsComponentUpdated(ctx);
}
return res;
};
// mark normalized to avoid duplicated wrapping
renderFnWithContext._n = true;
// mark this as compiled by default
// this is used in vnode.ts -> normalizeChildren() to set the slot
// rendering flag.
renderFnWithContext._c = true;
// disable block tracking by default
renderFnWithContext._d = true;
return renderFnWithContext;
}
/**
* dev only flag to track whether $attrs was used during render.
* If $attrs was used during render then the warning for failed attrs
* fallthrough can be suppressed.
*/
let accessedAttrs = false;
function markAttrsAccessed() {
accessedAttrs = true;
}
function renderComponentRoot(instance) {
const { type: Component, vnode, proxy, withProxy, props, propsOptions: [propsOptions], slots, attrs, emit, render, renderCache, data, setupState, ctx, inheritAttrs } = instance;
let result;
let fallthroughAttrs;
const prev = setCurrentRenderingInstance(instance);
{
accessedAttrs = false;
}
try {
if (vnode.shapeFlag & 4 /* STATEFUL_COMPONENT */) {
// withProxy is a proxy with a different `has` trap only for
// runtime-compiled render functions using `with` block.
const proxyToUse = withProxy || proxy;
result = normalizeVNode(render.call(proxyToUse, proxyToUse, renderCache, props, setupState, data, ctx));
fallthroughAttrs = attrs;
}
else {
// functional
const render = Component;
// in dev, mark attrs accessed if optional props (attrs === props)
if (true && attrs === props) {
markAttrsAccessed();
}
result = normalizeVNode(render.length > 1
? render(props, true
? {
get attrs() {
markAttrsAccessed();
return attrs;
},
slots,
emit
}
: { attrs, slots, emit })
: render(props, null /* we know it doesn't need it */));
fallthroughAttrs = Component.props
? attrs
: getFunctionalFallthrough(attrs);
}
}
catch (err) {
blockStack.length = 0;
handleError(err, instance, 1 /* RENDER_FUNCTION */);
result = createVNode(Comment);
}
// attr merging
// in dev mode, comments are preserved, and it's possible for a template
// to have comments along side the root element which makes it a fragment
let root = result;
let setRoot = undefined;
if (result.patchFlag > 0 &&
result.patchFlag & 2048 /* DEV_ROOT_FRAGMENT */) {
[root, setRoot] = getChildRoot(result);
}
if (fallthroughAttrs && inheritAttrs !== false) {
const keys = Object.keys(fallthroughAttrs);
const { shapeFlag } = root;
if (keys.length) {
if (shapeFlag & (1 /* ELEMENT */ | 6 /* COMPONENT */)) {
if (propsOptions && keys.some(isModelListener)) {
// If a v-model listener (onUpdate:xxx) has a corresponding declared
// prop, it indicates this component expects to handle v-model and
// it should not fallthrough.
// related: #1543, #1643, #1989
fallthroughAttrs = filterModelListeners(fallthroughAttrs, propsOptions);
}
root = cloneVNode(root, fallthroughAttrs);
}
else if (!accessedAttrs && root.type !== Comment) {
const allAttrs = Object.keys(attrs);
const eventAttrs = [];
const extraAttrs = [];
for (let i = 0, l = allAttrs.length; i < l; i++) {
const key = allAttrs[i];
if (isOn(key)) {
// ignore v-model handlers when they fail to fallthrough
if (!isModelListener(key)) {
// remove `on`, lowercase first letter to reflect event casing
// accurately
eventAttrs.push(key[2].toLowerCase() + key.slice(3));
}
}
else {
extraAttrs.push(key);
}
}
if (extraAttrs.length) {
warn$1(`Extraneous non-props attributes (` +
`${extraAttrs.join(', ')}) ` +
`were passed to component but could not be automatically inherited ` +
`because component renders fragment or text root nodes.`);
}
if (eventAttrs.length) {
warn$1(`Extraneous non-emits event listeners (` +
`${eventAttrs.join(', ')}) ` +
`were passed to component but could not be automatically inherited ` +
`because component renders fragment or text root nodes. ` +
`If the listener is intended to be a component custom event listener only, ` +
`declare it using the "emits" option.`);
}
}
}
}
// inherit directives
if (vnode.dirs) {
if (!isElementRoot(root)) {
warn$1(`Runtime directive used on component with non-element root node. ` +
`The directives will not function as intended.`);
}
// clone before mutating since the root may be a hoisted vnode
root = cloneVNode(root);
root.dirs = root.dirs ? root.dirs.concat(vnode.dirs) : vnode.dirs;
}
// inherit transition data
if (vnode.transition) {
if (!isElementRoot(root)) {
warn$1(`Component inside <Transition> renders non-element root node ` +
`that cannot be animated.`);
}
root.transition = vnode.transition;
}
if (setRoot) {
setRoot(root);
}
else {
result = root;
}
setCurrentRenderingInstance(prev);
return result;
}
/**
* dev only
* In dev mode, template root level comments are rendered, which turns the
* template into a fragment root, but we need to locate the single element
* root for attrs and scope id processing.
*/
const getChildRoot = (vnode) => {
const rawChildren = vnode.children;
const dynamicChildren = vnode.dynamicChildren;
const childRoot = filterSingleRoot(rawChildren);
if (!childRoot) {
return [vnode, undefined];
}
const index = rawChildren.indexOf(childRoot);
const dynamicIndex = dynamicChildren ? dynamicChildren.indexOf(childRoot) : -1;
const setRoot = (updatedRoot) => {
rawChildren[index] = updatedRoot;
if (dynamicChildren) {
if (dynamicIndex > -1) {
dynamicChildren[dynamicIndex] = updatedRoot;
}
else if (updatedRoot.patchFlag > 0) {
vnode.dynamicChildren = [...dynamicChildren, updatedRoot];
}
}
};
return [normalizeVNode(childRoot), setRoot];
};
function filterSingleRoot(children) {
let singleRoot;
for (let i = 0; i < children.length; i++) {
const child = children[i];
if (isVNode(child)) {
// ignore user comment
if (child.type !== Comment || child.children === 'v-if') {
if (singleRoot) {
// has more than 1 non-comment child, return now
return;
}
else {
singleRoot = child;
}
}
}
else {
return;
}
}
return singleRoot;
}
const getFunctionalFallthrough = (attrs) => {
let res;
for (const key in attrs) {
if (key === 'class' || key === 'style' || isOn(key)) {
(res || (res = {}))[key] = attrs[key];
}
}
return res;
};
const filterModelListeners = (attrs, props) => {
const res = {};
for (const key in attrs) {
if (!isModelListener(key) || !(key.slice(9) in props)) {
res[key] = attrs[key];
}
}
return res;
};
const isElementRoot = (vnode) => {
return (vnode.shapeFlag & (6 /* COMPONENT */ | 1 /* ELEMENT */) ||
vnode.type === Comment // potential v-if branch switch
);
};
function shouldUpdateComponent(prevVNode, nextVNode, optimized) {
const { props: prevProps, children: prevChildren, component } = prevVNode;
const { props: nextProps, children: nextChildren, patchFlag } = nextVNode;
const emits = component.emitsOptions;
// Parent component's render function was hot-updated. Since this may have
// caused the child component's slots content to have changed, we need to
// force the child to update as well.
if ((prevChildren || nextChildren) && isHmrUpdating) {
return true;
}
// force child update for runtime directive or transition on component vnode.
if (nextVNode.dirs || nextVNode.transition) {
return true;
}
if (optimized && patchFlag >= 0) {
if (patchFlag & 1024 /* DYNAMIC_SLOTS */) {
// slot content that references values that might have changed,
// e.g. in a v-for
return true;
}
if (patchFlag & 16 /* FULL_PROPS */) {
if (!prevProps) {
return !!nextProps;
}
// presence of this flag indicates props are always non-null
return hasPropsChanged(prevProps, nextProps, emits);
}
else if (patchFlag & 8 /* PROPS */) {
const dynamicProps = nextVNode.dynamicProps;
for (let i = 0; i < dynamicProps.length; i++) {
const key = dynamicProps[i];
if (nextProps[key] !== prevProps[key] &&
!isEmitListener(emits, key)) {
return true;
}
}
}
}
else {
// this path is only taken by manually written render functions
// so presence of any children leads to a forced update
if (prevChildren || nextChildren) {
if (!nextChildren || !nextChildren.$stable) {
return true;
}
}
if (prevProps === nextProps) {
return false;
}
if (!prevProps) {
return !!nextProps;
}
if (!nextProps) {
return true;
}
return hasPropsChanged(prevProps, nextProps, emits);
}
return false;
}
function hasPropsChanged(prevProps, nextProps, emitsOptions) {
const nextKeys = Object.keys(nextProps);
if (nextKeys.length !== Object.keys(prevProps).length) {
return true;
}
for (let i = 0; i < nextKeys.length; i++) {
const key = nextKeys[i];
if (nextProps[key] !== prevProps[key] &&
!isEmitListener(emitsOptions, key)) {
return true;
}
}
return false;
}
function updateHOCHostEl({ vnode, parent }, el // HostNode
) {
while (parent && parent.subTree === vnode) {
(vnode = parent.vnode).el = el;
parent = parent.parent;
}
}
const isSuspense = (type) => type.__isSuspense;
function queueEffectWithSuspense(fn, suspense) {
if (suspense && suspense.pendingBranch) {
if (isArray(fn)) {
suspense.effects.push(...fn);
}
else {
suspense.effects.push(fn);
}
}
else {
queuePostFlushCb(fn);
}
}
function provide(key, value) {
if (!currentInstance) {
{
warn$1(`provide() can only be used inside setup().`);
}
}
else {
let provides = currentInstance.provides;
// by default an instance inherits its parent's provides object
// but when it needs to provide values of its own, it creates its
// own provides object using parent provides object as prototype.
// this way in `inject` we can simply look up injections from direct
// parent and let the prototype chain do the work.
const parentProvides = currentInstance.parent && currentInstance.parent.provides;
if (parentProvides === provides) {
provides = currentInstance.provides = Object.create(parentProvides);
}
// TS doesn't allow symbol as index type
provides[key] = value;
}
}
function inject(key, defaultValue, treatDefaultAsFactory = false) {
// fallback to `currentRenderingInstance` so that this can be called in
// a functional component
const instance = currentInstance || currentRenderingInstance;
if (instance) {
// #2400
// to support `app.use` plugins,
// fallback to appContext's `provides` if the instance is at root
const provides = instance.parent == null
? instance.vnode.appContext && instance.vnode.appContext.provides
: instance.parent.provides;
if (provides && key in provides) {
// TS doesn't allow symbol as index type
return provides[key];
}
else if (arguments.length > 1) {
return treatDefaultAsFactory && isFunction(defaultValue)
? defaultValue.call(instance.proxy)
: defaultValue;
}
else {
warn$1(`injection "${String(key)}" not found.`);
}
}
else {
warn$1(`inject() can only be used inside setup() or functional components.`);
}
}
// initial value for watchers to trigger on undefined initial values
const INITIAL_WATCHER_VALUE = {};
// implementation
function watch(source, cb, options) {
if (!isFunction(cb)) {
warn$1(`\`watch(fn, options?)\` signature has been moved to a separate API. ` +
`Use \`watchEffect(fn, options?)\` instead. \`watch\` now only ` +
`supports \`watch(source, cb, options?) signature.`);
}
return doWatch(source, cb, options);
}
function doWatch(source, cb, { immediate, deep, flush, onTrack, onTrigger } = EMPTY_OBJ) {
if (!cb) {
if (immediate !== undefined) {
warn$1(`watch() "immediate" option is only respected when using the ` +
`watch(source, callback, options?) signature.`);
}
if (deep !== undefined) {
warn$1(`watch() "deep" option is only respected when using the ` +
`watch(source, callback, options?) signature.`);
}
}
const warnInvalidSource = (s) => {
warn$1(`Invalid watch source: `, s, `A watch source can only be a getter/effect function, a ref, ` +
`a reactive object, or an array of these types.`);
};
const instance = currentInstance;
let getter;
let forceTrigger = false;
let isMultiSource = false;
if (isRef(source)) {
getter = () => source.value;
forceTrigger = isShallow(source);
}
else if (isReactive(source)) {
getter = () => source;
deep = true;
}
else if (isArray(source)) {
isMultiSource = true;
forceTrigger = source.some(s => isReactive(s) || isShallow(s));
getter = () => source.map(s => {
if (isRef(s)) {
return s.value;
}
else if (isReactive(s)) {
return traverse(s);
}
else if (isFunction(s)) {
return callWithErrorHandling(s, instance, 2 /* WATCH_GETTER */);
}
else {
warnInvalidSource(s);
}
});
}
else if (isFunction(source)) {
if (cb) {
// getter with cb
getter = () => callWithErrorHandling(source, instance, 2 /* WATCH_GETTER */);
}
else {
// no cb -> simple effect
getter = () => {
if (instance && instance.isUnmounted) {
return;
}
if (cleanup) {
cleanup();
}
return callWithAsyncErrorHandling(source, instance, 3 /* WATCH_CALLBACK */, [onCleanup]);
};
}
}
else {
getter = NOOP;
warnInvalidSource(source);
}
if (cb && deep) {
const baseGetter = getter;
getter = () => traverse(baseGetter());
}
let cleanup;
let onCleanup = (fn) => {
cleanup = effect.onStop = () => {
callWithErrorHandling(fn, instance, 4 /* WATCH_CLEANUP */);
};
};
// in SSR there is no need to setup an actual effect, and it should be noop
// unless it's eager
if (isInSSRComponentSetup) {
// we will also not call the invalidate callback (+ runner is not set up)
onCleanup = NOOP;
if (!cb) {
getter();
}
else if (immediate) {
callWithAsyncErrorHandling(cb, instance, 3 /* WATCH_CALLBACK */, [
getter(),
isMultiSource ? [] : undefined,
onCleanup
]);
}
return NOOP;
}
let oldValue = isMultiSource ? [] : INITIAL_WATCHER_VALUE;
const job = () => {
if (!effect.active) {
return;
}
if (cb) {
// watch(source, cb)
const newValue = effect.run();
if (deep ||
forceTrigger ||
(isMultiSource
? newValue.some((v, i) => hasChanged(v, oldValue[i]))
: hasChanged(newValue, oldValue)) ||
(false )) {
// cleanup before running cb again
if (cleanup) {
cleanup();
}
callWithAsyncErrorHandling(cb, instance, 3 /* WATCH_CALLBACK */, [
newValue,
// pass undefined as the old value when it's changed for the first time
oldValue === INITIAL_WATCHER_VALUE ? undefined : oldValue,
onCleanup
]);
oldValue = newValue;
}
}
else {
// watchEffect
effect.run();
}
};
// important: mark the job as a watcher callback so that scheduler knows
// it is allowed to self-trigger (#1727)
job.allowRecurse = !!cb;
let scheduler;
if (flush === 'sync') {
scheduler = job; // the scheduler function gets called directly
}
else if (flush === 'post') {
scheduler = () => queuePostRenderEffect(job, instance && instance.suspense);
}
else {
// default: 'pre'
scheduler = () => queuePreFlushCb(job);
}
const effect = new ReactiveEffect(getter, scheduler);
{
effect.onTrack = onTrack;
effect.onTrigger = onTrigger;
}
// initial run
if (cb) {
if (immediate) {
job();
}
else {
oldValue = effect.run();
}
}
else if (flush === 'post') {
queuePostRenderEffect(effect.run.bind(effect), instance && instance.suspense);
}
else {
effect.run();
}
return () => {
effect.stop();
if (instance && instance.scope) {
remove(instance.scope.effects, effect);
}
};
}
// this.$watch
function instanceWatch(source, value, options) {
const publicThis = this.proxy;
const getter = isString(source)
? source.includes('.')
? createPathGetter(publicThis, source)
: () => publicThis[source]
: source.bind(publicThis, publicThis);
let cb;
if (isFunction(value)) {
cb = value;
}
else {
cb = value.handler;
options = value;
}
const cur = currentInstance;
setCurrentInstance(this);
const res = doWatch(getter, cb.bind(publicThis), options);
if (cur) {
setCurrentInstance(cur);
}
else {
unsetCurrentInstance();
}
return res;
}
function createPathGetter(ctx, path) {
const segments = path.split('.');
return () => {
let cur = ctx;
for (let i = 0; i < segments.length && cur; i++) {
cur = cur[segments[i]];
}
return cur;
};
}
function traverse(value, seen) {
if (!isObject(value) || value["__v_skip" /* SKIP */]) {
return value;
}
seen = seen || new Set();
if (seen.has(value)) {
return value;
}
seen.add(value);
if (isRef(value)) {
traverse(value.value, seen);
}
else if (isArray(value)) {
for (let i = 0; i < value.length; i++) {
traverse(value[i], seen);
}
}
else if (isSet(value) || isMap(value)) {
value.forEach((v) => {
traverse(v, seen);
});
}
else if (isPlainObject(value)) {
for (const key in value) {
traverse(value[key], seen);
}
}
return value;
}
const isAsyncWrapper = (i) => !!i.type.__asyncLoader;
const isKeepAlive = (vnode) => vnode.type.__isKeepAlive;
function onActivated(hook, target) {
registerKeepAliveHook(hook, "a" /* ACTIVATED */, target);
}
function onDeactivated(hook, target) {
registerKeepAliveHook(hook, "da" /* DEACTIVATED */, target);
}
function registerKeepAliveHook(hook, type, target = currentInstance) {
// cache the deactivate branch check wrapper for injected hooks so the same
// hook can be properly deduped by the scheduler. "__wdc" stands for "with
// deactivation check".
const wrappedHook = hook.__wdc ||
(hook.__wdc = () => {
// only fire the hook if the target instance is NOT in a deactivated branch.
let current = target;
while (current) {
if (current.isDeactivated) {
return;
}
current = current.parent;
}
return hook();
});
injectHook(type, wrappedHook, target);
// In addition to registering it on the target instance, we walk up the parent
// chain and register it on all ancestor instances that are keep-alive roots.
// This avoids the need to walk the entire component tree when invoking these
// hooks, and more importantly, avoids the need to track child components in
// arrays.
if (target) {
let current = target.parent;
while (current && current.parent) {
if (isKeepAlive(current.parent.vnode)) {
injectToKeepAliveRoot(wrappedHook, type, target, current);
}
current = current.parent;
}
}
}
function injectToKeepAliveRoot(hook, type, target, keepAliveRoot) {
// injectHook wraps the original for error handling, so make sure to remove
// the wrapped version.
const injected = injectHook(type, hook, keepAliveRoot, true /* prepend */);
onUnmounted(() => {
remove(keepAliveRoot[type], injected);
}, target);
}
function injectHook(type, hook, target = currentInstance, prepend = false) {
if (target) {
const hooks = target[type] || (target[type] = []);
// cache the error handling wrapper for injected hooks so the same hook
// can be properly deduped by the scheduler. "__weh" stands for "with error
// handling".
const wrappedHook = hook.__weh ||
(hook.__weh = (...args) => {
if (target.isUnmounted) {
return;
}
// disable tracking inside all lifecycle hooks
// since they can potentially be called inside effects.
pauseTracking();
// Set currentInstance during hook invocation.
// This assumes the hook does not synchronously trigger other hooks, which
// can only be false when the user does something really funky.
setCurrentInstance(target);
const res = callWithAsyncErrorHandling(hook, target, type, args);
unsetCurrentInstance();
resetTracking();
return res;
});
if (prepend) {
hooks.unshift(wrappedHook);
}
else {
hooks.push(wrappedHook);
}
return wrappedHook;
}
else {
const apiName = toHandlerKey(ErrorTypeStrings[type].replace(/ hook$/, ''));
warn$1(`${apiName} is called when there is no active component instance to be ` +
`associated with. ` +
`Lifecycle injection APIs can only be used during execution of setup().` +
(` If you are using async setup(), make sure to register lifecycle ` +
`hooks before the first await statement.`
));
}
}
const createHook = (lifecycle) => (hook, target = currentInstance) =>
// post-create lifecycle registrations are noops during SSR (except for serverPrefetch)
(!isInSSRComponentSetup || lifecycle === "sp" /* SERVER_PREFETCH */) &&
injectHook(lifecycle, hook, target);
const onBeforeMount = createHook("bm" /* BEFORE_MOUNT */);
const onMounted = createHook("m" /* MOUNTED */);
const onBeforeUpdate = createHook("bu" /* BEFORE_UPDATE */);
const onUpdated = createHook("u" /* UPDATED */);
const onBeforeUnmount = createHook("bum" /* BEFORE_UNMOUNT */);
const onUnmounted = createHook("um" /* UNMOUNTED */);
const onServerPrefetch = createHook("sp" /* SERVER_PREFETCH */);
const onRenderTriggered = createHook("rtg" /* RENDER_TRIGGERED */);
const onRenderTracked = createHook("rtc" /* RENDER_TRACKED */);
function onErrorCaptured(hook, target = currentInstance) {
injectHook("ec" /* ERROR_CAPTURED */, hook, target);
}
/**
Runtime helper for applying directives to a vnode. Example usage:
const comp = resolveComponent('comp')
const foo = resolveDirective('foo')
const bar = resolveDirective('bar')
return withDirectives(h(comp), [
[foo, this.x],
[bar, this.y]
])
*/
function validateDirectiveName(name) {
if (isBuiltInDirective(name)) {
warn$1('Do not use built-in directive ids as custom directive id: ' + name);
}
}
function invokeDirectiveHook(vnode, prevVNode, instance, name) {
const bindings = vnode.dirs;
const oldBindings = prevVNode && prevVNode.dirs;
for (let i = 0; i < bindings.length; i++) {
const binding = bindings[i];
if (oldBindings) {
binding.oldValue = oldBindings[i].value;
}
let hook = binding.dir[name];
if (hook) {
// disable tracking inside all lifecycle hooks
// since they can potentially be called inside effects.
pauseTracking();
callWithAsyncErrorHandling(hook, instance, 8 /* DIRECTIVE_HOOK */, [
vnode.el,
binding,
vnode,
prevVNode
]);
resetTracking();
}
}
}
const NULL_DYNAMIC_COMPONENT = Symbol();
/**
* #2437 In Vue 3, functional components do not have a public instance proxy but
* they exist in the internal parent chain. For code that relies on traversing
* public $parent chains, skip functional ones and go to the parent instead.
*/
const getPublicInstance = (i) => {
if (!i)
return null;
if (isStatefulComponent(i))
return getExposeProxy(i) || i.proxy;
return getPublicInstance(i.parent);
};
const publicPropertiesMap =
// Move PURE marker to new line to workaround compiler discarding it
// due to type annotation
/*#__PURE__*/ extend(Object.create(null), {
$: i => i,
$el: i => i.vnode.el,
$data: i => i.data,
$props: i => (shallowReadonly(i.props) ),
$attrs: i => (shallowReadonly(i.attrs) ),
$slots: i => (shallowReadonly(i.slots) ),
$refs: i => (shallowReadonly(i.refs) ),
$parent: i => getPublicInstance(i.parent),
$root: i => getPublicInstance(i.root),
$emit: i => i.emit,
$options: i => (resolveMergedOptions(i) ),
$forceUpdate: i => i.f || (i.f = () => queueJob(i.update)),
$nextTick: i => i.n || (i.n = nextTick.bind(i.proxy)),
$watch: i => (instanceWatch.bind(i) )
});
const isReservedPrefix = (key) => key === '_' || key === '$';
const PublicInstanceProxyHandlers = {
get({ _: instance }, key) {
const { ctx, setupState, data, props, accessCache, type, appContext } = instance;
// for internal formatters to know that this is a Vue instance
if (key === '__isVue') {
return true;
}
// prioritize <script setup> bindings during dev.
// this allows even properties that start with _ or $ to be used - so that
// it aligns with the production behavior where the render fn is inlined and
// indeed has access to all declared variables.
if (setupState !== EMPTY_OBJ &&
setupState.__isScriptSetup &&
hasOwn(setupState, key)) {
return setupState[key];
}
// data / props / ctx
// This getter gets called for every property access on the render context
// during render and is a major hotspot. The most expensive part of this
// is the multiple hasOwn() calls. It's much faster to do a simple property
// access on a plain object, so we use an accessCache object (with null
// prototype) to memoize what access type a key corresponds to.
let normalizedProps;
if (key[0] !== '$') {
const n = accessCache[key];
if (n !== undefined) {
switch (n) {
case 1 /* SETUP */:
return setupState[key];
case 2 /* DATA */:
return data[key];
case 4 /* CONTEXT */:
return ctx[key];
case 3 /* PROPS */:
return props[key];
// default: just fallthrough
}
}
else if (setupState !== EMPTY_OBJ && hasOwn(setupState, key)) {
accessCache[key] = 1 /* SETUP */;
return setupState[key];
}
else if (data !== EMPTY_OBJ && hasOwn(data, key)) {
accessCache[key] = 2 /* DATA */;
return data[key];
}
else if (
// only cache other properties when instance has declared (thus stable)
// props
(normalizedProps = instance.propsOptions[0]) &&
hasOwn(normalizedProps, key)) {
accessCache[key] = 3 /* PROPS */;
return props[key];
}
else if (ctx !== EMPTY_OBJ && hasOwn(ctx, key)) {
accessCache[key] = 4 /* CONTEXT */;
return ctx[key];
}
else if (shouldCacheAccess) {
accessCache[key] = 0 /* OTHER */;
}
}
const publicGetter = publicPropertiesMap[key];
let cssModule, globalProperties;
// public $xxx properties
if (publicGetter) {
if (key === '$attrs') {
track(instance, "get" /* GET */, key);
markAttrsAccessed();
}
return publicGetter(instance);
}
else if (
// css module (injected by vue-loader)
(cssModule = type.__cssModules) &&
(cssModule = cssModule[key])) {
return cssModule;
}
else if (ctx !== EMPTY_OBJ && hasOwn(ctx, key)) {
// user may set custom properties to `this` that start with `$`
accessCache[key] = 4 /* CONTEXT */;
return ctx[key];
}
else if (
// global properties
((globalProperties = appContext.config.globalProperties),
hasOwn(globalProperties, key))) {
{
return globalProperties[key];
}
}
else if (currentRenderingInstance &&
(!isString(key) ||
// #1091 avoid internal isRef/isVNode checks on component instance leading
// to infinite warning loop
key.indexOf('__v') !== 0)) {
if (data !== EMPTY_OBJ && isReservedPrefix(key[0]) && hasOwn(data, key)) {
warn$1(`Property ${JSON.stringify(key)} must be accessed via $data because it starts with a reserved ` +
`character ("$" or "_") and is not proxied on the render context.`);
}
else if (instance === currentRenderingInstance) {
warn$1(`Property ${JSON.stringify(key)} was accessed during render ` +
`but is not defined on instance.`);
}
}
},
set({ _: instance }, key, value) {
const { data, setupState, ctx } = instance;
if (setupState !== EMPTY_OBJ && hasOwn(setupState, key)) {
setupState[key] = value;
return true;
}
else if (data !== EMPTY_OBJ && hasOwn(data, key)) {
data[key] = value;
return true;
}
else if (hasOwn(instance.props, key)) {
warn$1(`Attempting to mutate prop "${key}". Props are readonly.`, instance);
return false;
}
if (key[0] === '$' && key.slice(1) in instance) {
warn$1(`Attempting to mutate public property "${key}". ` +
`Properties starting with $ are reserved and readonly.`, instance);
return false;
}
else {
if (key in instance.appContext.config.globalProperties) {
Object.defineProperty(ctx, key, {
enumerable: true,
configurable: true,
value
});
}
else {
ctx[key] = value;
}
}
return true;
},
has({ _: { data, setupState, accessCache, ctx, appContext, propsOptions } }, key) {
let normalizedProps;
return (!!accessCache[key] ||
(data !== EMPTY_OBJ && hasOwn(data, key)) ||
(setupState !== EMPTY_OBJ && hasOwn(setupState, key)) ||
((normalizedProps = propsOptions[0]) && hasOwn(normalizedProps, key)) ||
hasOwn(ctx, key) ||
hasOwn(publicPropertiesMap, key) ||
hasOwn(appContext.config.globalProperties, key));
},
defineProperty(target, key, descriptor) {
if (descriptor.get != null) {
// invalidate key cache of a getter based property #5417
target._.accessCache[key] = 0;
}
else if (hasOwn(descriptor, 'value')) {
this.set(target, key, descriptor.value, null);
}
return Reflect.defineProperty(target, key, descriptor);
}
};
{
PublicInstanceProxyHandlers.ownKeys = (target) => {
warn$1(`Avoid app logic that relies on enumerating keys on a component instance. ` +
`The keys will be empty in production mode to avoid performance overhead.`);
return Reflect.ownKeys(target);
};
}
// dev only
// In dev mode, the proxy target exposes the same properties as seen on `this`
// for easier console inspection. In prod mode it will be an empty object so
// these properties definitions can be skipped.
function createDevRenderContext(instance) {
const target = {};
// expose internal instance for proxy handlers
Object.defineProperty(target, `_`, {
configurable: true,
enumerable: false,
get: () => instance
});
// expose public properties
Object.keys(publicPropertiesMap).forEach(key => {
Object.defineProperty(target, key, {
configurable: true,
enumerable: false,
get: () => publicPropertiesMap[key](instance),
// intercepted by the proxy so no need for implementation,
// but needed to prevent set errors
set: NOOP
});
});
return target;
}
// dev only
function exposePropsOnRenderContext(instance) {
const { ctx, propsOptions: [propsOptions] } = instance;
if (propsOptions) {
Object.keys(propsOptions).forEach(key => {
Object.defineProperty(ctx, key, {
enumerable: true,
configurable: true,
get: () => instance.props[key],
set: NOOP
});
});
}
}
// dev only
function exposeSetupStateOnRenderContext(instance) {
const { ctx, setupState } = instance;
Object.keys(toRaw(setupState)).forEach(key => {
if (!setupState.__isScriptSetup) {
if (isReservedPrefix(key[0])) {
warn$1(`setup() return property ${JSON.stringify(key)} should not start with "$" or "_" ` +
`which are reserved prefixes for Vue internals.`);
return;
}
Object.defineProperty(ctx, key, {
enumerable: true,
configurable: true,
get: () => setupState[key],
set: NOOP
});
}
});
}
function createDuplicateChecker() {
const cache = Object.create(null);
return (type, key) => {
if (cache[key]) {
warn$1(`${type} property "${key}" is already defined in ${cache[key]}.`);
}
else {
cache[key] = type;
}
};
}
let shouldCacheAccess = true;
function applyOptions(instance) {
const options = resolveMergedOptions(instance);
const publicThis = instance.proxy;
const ctx = instance.ctx;
// do not cache property access on public proxy during state initialization
shouldCacheAccess = false;
// call beforeCreate first before accessing other options since
// the hook may mutate resolved options (#2791)
if (options.beforeCreate) {
callHook(options.beforeCreate, instance, "bc" /* BEFORE_CREATE */);
}
const {
// state
data: dataOptions, computed: computedOptions, methods, watch: watchOptions, provide: provideOptions, inject: injectOptions,
// lifecycle
created, beforeMount, mounted, beforeUpdate, updated, activated, deactivated, beforeDestroy, beforeUnmount, destroyed, unmounted, render, renderTracked, renderTriggered, errorCaptured, serverPrefetch,
// public API
expose, inheritAttrs,
// assets
components, directives, filters } = options;
const checkDuplicateProperties = createDuplicateChecker() ;
{
const [propsOptions] = instance.propsOptions;
if (propsOptions) {
for (const key in propsOptions) {
checkDuplicateProperties("Props" /* PROPS */, key);
}
}
}
// options initialization order (to be consistent with Vue 2):
// - props (already done outside of this function)
// - inject
// - methods
// - data (deferred since it relies on `this` access)
// - computed
// - watch (deferred since it relies on `this` access)
if (injectOptions) {
resolveInjections(injectOptions, ctx, checkDuplicateProperties, instance.appContext.config.unwrapInjectedRef);
}
if (methods) {
for (const key in methods) {
const methodHandler = methods[key];
if (isFunction(methodHandler)) {
// In dev mode, we use the `createRenderContext` function to define
// methods to the proxy target, and those are read-only but
// reconfigurable, so it needs to be redefined here
{
Object.defineProperty(ctx, key, {
value: methodHandler.bind(publicThis),
configurable: true,
enumerable: true,
writable: true
});
}
{
checkDuplicateProperties("Methods" /* METHODS */, key);
}
}
else {
warn$1(`Method "${key}" has type "${typeof methodHandler}" in the component definition. ` +
`Did you reference the function correctly?`);
}
}
}
if (dataOptions) {
if (!isFunction(dataOptions)) {
warn$1(`The data option must be a function. ` +
`Plain object usage is no longer supported.`);
}
const data = dataOptions.call(publicThis, publicThis);
if (isPromise(data)) {
warn$1(`data() returned a Promise - note data() cannot be async; If you ` +
`intend to perform data fetching before component renders, use ` +
`async setup() + <Suspense>.`);
}
if (!isObject(data)) {
warn$1(`data() should return an object.`);
}
else {
instance.data = reactive(data);
{
for (const key in data) {
checkDuplicateProperties("Data" /* DATA */, key);
// expose data on ctx during dev
if (!isReservedPrefix(key[0])) {
Object.defineProperty(ctx, key, {
configurable: true,
enumerable: true,
get: () => data[key],
set: NOOP
});
}
}
}
}
}
// state initialization complete at this point - start caching access
shouldCacheAccess = true;
if (computedOptions) {
for (const key in computedOptions) {
const opt = computedOptions[key];
const get = isFunction(opt)
? opt.bind(publicThis, publicThis)
: isFunction(opt.get)
? opt.get.bind(publicThis, publicThis)
: NOOP;
if (get === NOOP) {
warn$1(`Computed property "${key}" has no getter.`);
}
const set = !isFunction(opt) && isFunction(opt.set)
? opt.set.bind(publicThis)
: () => {
warn$1(`Write operation failed: computed property "${key}" is readonly.`);
}
;
const c = computed$1({
get,
set
});
Object.defineProperty(ctx, key, {
enumerable: true,
configurable: true,
get: () => c.value,
set: v => (c.value = v)
});
{
checkDuplicateProperties("Computed" /* COMPUTED */, key);
}
}
}
if (watchOptions) {
for (const key in watchOptions) {
createWatcher(watchOptions[key], ctx, publicThis, key);
}
}
if (provideOptions) {
const provides = isFunction(provideOptions)
? provideOptions.call(publicThis)
: provideOptions;
Reflect.ownKeys(provides).forEach(key => {
provide(key, provides[key]);
});
}
if (created) {
callHook(created, instance, "c" /* CREATED */);
}
function registerLifecycleHook(register, hook) {
if (isArray(hook)) {
hook.forEach(_hook => register(_hook.bind(publicThis)));
}
else if (hook) {
register(hook.bind(publicThis));
}
}
registerLifecycleHook(onBeforeMount, beforeMount);
registerLifecycleHook(onMounted, mounted);
registerLifecycleHook(onBeforeUpdate, beforeUpdate);
registerLifecycleHook(onUpdated, updated);
registerLifecycleHook(onActivated, activated);
registerLifecycleHook(onDeactivated, deactivated);
registerLifecycleHook(onErrorCaptured, errorCaptured);
registerLifecycleHook(onRenderTracked, renderTracked);
registerLifecycleHook(onRenderTriggered, renderTriggered);
registerLifecycleHook(onBeforeUnmount, beforeUnmount);
registerLifecycleHook(onUnmounted, unmounted);
registerLifecycleHook(onServerPrefetch, serverPrefetch);
if (isArray(expose)) {
if (expose.length) {
const exposed = instance.exposed || (instance.exposed = {});
expose.forEach(key => {
Object.defineProperty(exposed, key, {
get: () => publicThis[key],
set: val => (publicThis[key] = val)
});
});
}
else if (!instance.exposed) {
instance.exposed = {};
}
}
// options that are handled when creating the instance but also need to be
// applied from mixins
if (render && instance.render === NOOP) {
instance.render = render;
}
if (inheritAttrs != null) {
instance.inheritAttrs = inheritAttrs;
}
// asset options.
if (components)
instance.components = components;
if (directives)
instance.directives = directives;
}
function resolveInjections(injectOptions, ctx, checkDuplicateProperties = NOOP, unwrapRef = false) {
if (isArray(injectOptions)) {
injectOptions = normalizeInject(injectOptions);
}
for (const key in injectOptions) {
const opt = injectOptions[key];
let injected;
if (isObject(opt)) {
if ('default' in opt) {
injected = inject(opt.from || key, opt.default, true /* treat default function as factory */);
}
else {
injected = inject(opt.from || key);
}
}
else {
injected = inject(opt);
}
if (isRef(injected)) {
// TODO remove the check in 3.3
if (unwrapRef) {
Object.defineProperty(ctx, key, {
enumerable: true,
configurable: true,
get: () => injected.value,
set: v => (injected.value = v)
});
}
else {
{
warn$1(`injected property "${key}" is a ref and will be auto-unwrapped ` +
`and no longer needs \`.value\` in the next minor release. ` +
`To opt-in to the new behavior now, ` +
`set \`app.config.unwrapInjectedRef = true\` (this config is ` +
`temporary and will not be needed in the future.)`);
}
ctx[key] = injected;
}
}
else {
ctx[key] = injected;
}
{
checkDuplicateProperties("Inject" /* INJECT */, key);
}
}
}
function callHook(hook, instance, type) {
callWithAsyncErrorHandling(isArray(hook)
? hook.map(h => h.bind(instance.proxy))
: hook.bind(instance.proxy), instance, type);
}
function createWatcher(raw, ctx, publicThis, key) {
const getter = key.includes('.')
? createPathGetter(publicThis, key)
: () => publicThis[key];
if (isString(raw)) {
const handler = ctx[raw];
if (isFunction(handler)) {
watch(getter, handler);
}
else {
warn$1(`Invalid watch handler specified by key "${raw}"`, handler);
}
}
else if (isFunction(raw)) {
watch(getter, raw.bind(publicThis));
}
else if (isObject(raw)) {
if (isArray(raw)) {
raw.forEach(r => createWatcher(r, ctx, publicThis, key));
}
else {
const handler = isFunction(raw.handler)
? raw.handler.bind(publicThis)
: ctx[raw.handler];
if (isFunction(handler)) {
watch(getter, handler, raw);
}
else {
warn$1(`Invalid watch handler specified by key "${raw.handler}"`, handler);
}
}
}
else {
warn$1(`Invalid watch option: "${key}"`, raw);
}
}
/**
* Resolve merged options and cache it on the component.
* This is done only once per-component since the merging does not involve
* instances.
*/
function resolveMergedOptions(instance) {
const base = instance.type;
const { mixins, extends: extendsOptions } = base;
const { mixins: globalMixins, optionsCache: cache, config: { optionMergeStrategies } } = instance.appContext;
const cached = cache.get(base);
let resolved;
if (cached) {
resolved = cached;
}
else if (!globalMixins.length && !mixins && !extendsOptions) {
{
resolved = base;
}
}
else {
resolved = {};
if (globalMixins.length) {
globalMixins.forEach(m => mergeOptions(resolved, m, optionMergeStrategies, true));
}
mergeOptions(resolved, base, optionMergeStrategies);
}
cache.set(base, resolved);
return resolved;
}
function mergeOptions(to, from, strats, asMixin = false) {
const { mixins, extends: extendsOptions } = from;
if (extendsOptions) {
mergeOptions(to, extendsOptions, strats, true);
}
if (mixins) {
mixins.forEach((m) => mergeOptions(to, m, strats, true));
}
for (const key in from) {
if (asMixin && key === 'expose') {
warn$1(`"expose" option is ignored when declared in mixins or extends. ` +
`It should only be declared in the base component itself.`);
}
else {
const strat = internalOptionMergeStrats[key] || (strats && strats[key]);
to[key] = strat ? strat(to[key], from[key]) : from[key];
}
}
return to;
}
const internalOptionMergeStrats = {
data: mergeDataFn,
props: mergeObjectOptions,
emits: mergeObjectOptions,
// objects
methods: mergeObjectOptions,
computed: mergeObjectOptions,
// lifecycle
beforeCreate: mergeAsArray,
created: mergeAsArray,
beforeMount: mergeAsArray,
mounted: mergeAsArray,
beforeUpdate: mergeAsArray,
updated: mergeAsArray,
beforeDestroy: mergeAsArray,
beforeUnmount: mergeAsArray,
destroyed: mergeAsArray,
unmounted: mergeAsArray,
activated: mergeAsArray,
deactivated: mergeAsArray,
errorCaptured: mergeAsArray,
serverPrefetch: mergeAsArray,
// assets
components: mergeObjectOptions,
directives: mergeObjectOptions,
// watch
watch: mergeWatchOptions,
// provide / inject
provide: mergeDataFn,
inject: mergeInject
};
function mergeDataFn(to, from) {
if (!from) {
return to;
}
if (!to) {
return from;
}
return function mergedDataFn() {
return (extend)(isFunction(to) ? to.call(this, this) : to, isFunction(from) ? from.call(this, this) : from);
};
}
function mergeInject(to, from) {
return mergeObjectOptions(normalizeInject(to), normalizeInject(from));
}
function normalizeInject(raw) {
if (isArray(raw)) {
const res = {};
for (let i = 0; i < raw.length; i++) {
res[raw[i]] = raw[i];
}
return res;
}
return raw;
}
function mergeAsArray(to, from) {
return to ? [...new Set([].concat(to, from))] : from;
}
function mergeObjectOptions(to, from) {
return to ? extend(extend(Object.create(null), to), from) : from;
}
function mergeWatchOptions(to, from) {
if (!to)
return from;
if (!from)
return to;
const merged = extend(Object.create(null), to);
for (const key in from) {
merged[key] = mergeAsArray(to[key], from[key]);
}
return merged;
}
function initProps(instance, rawProps, isStateful, // result of bitwise flag comparison
isSSR = false) {
const props = {};
const attrs = {};
def(attrs, InternalObjectKey, 1);
instance.propsDefaults = Object.create(null);
setFullProps(instance, rawProps, props, attrs);
// ensure all declared prop keys are present
for (const key in instance.propsOptions[0]) {
if (!(key in props)) {
props[key] = undefined;
}
}
// validation
{
validateProps(rawProps || {}, props, instance);
}
if (isStateful) {
// stateful
instance.props = isSSR ? props : shallowReactive(props);
}
else {
if (!instance.type.props) {
// functional w/ optional props, props === attrs
instance.props = attrs;
}
else {
// functional w/ declared props
instance.props = props;
}
}
instance.attrs = attrs;
}
function updateProps(instance, rawProps, rawPrevProps, optimized) {
const { props, attrs, vnode: { patchFlag } } = instance;
const rawCurrentProps = toRaw(props);
const [options] = instance.propsOptions;
let hasAttrsChanged = false;
if (
// always force full diff in dev
// - #1942 if hmr is enabled with sfc component
// - vite#872 non-sfc component used by sfc component
!((instance.type.__hmrId ||
(instance.parent && instance.parent.type.__hmrId))) &&
(optimized || patchFlag > 0) &&
!(patchFlag & 16 /* FULL_PROPS */)) {
if (patchFlag & 8 /* PROPS */) {
// Compiler-generated props & no keys change, just set the updated
// the props.
const propsToUpdate = instance.vnode.dynamicProps;
for (let i = 0; i < propsToUpdate.length; i++) {
let key = propsToUpdate[i];
// skip if the prop key is a declared emit event listener
if (isEmitListener(instance.emitsOptions, key)) {
continue;
}
// PROPS flag guarantees rawProps to be non-null
const value = rawProps[key];
if (options) {
// attr / props separation was done on init and will be consistent
// in this code path, so just check if attrs have it.
if (hasOwn(attrs, key)) {
if (value !== attrs[key]) {
attrs[key] = value;
hasAttrsChanged = true;
}
}
else {
const camelizedKey = camelize(key);
props[camelizedKey] = resolvePropValue(options, rawCurrentProps, camelizedKey, value, instance, false /* isAbsent */);
}
}
else {
if (value !== attrs[key]) {
attrs[key] = value;
hasAttrsChanged = true;
}
}
}
}
}
else {
// full props update.
if (setFullProps(instance, rawProps, props, attrs)) {
hasAttrsChanged = true;
}
// in case of dynamic props, check if we need to delete keys from
// the props object
let kebabKey;
for (const key in rawCurrentProps) {
if (!rawProps ||
// for camelCase
(!hasOwn(rawProps, key) &&
// it's possible the original props was passed in as kebab-case
// and converted to camelCase (#955)
((kebabKey = hyphenate(key)) === key || !hasOwn(rawProps, kebabKey)))) {
if (options) {
if (rawPrevProps &&
// for camelCase
(rawPrevProps[key] !== undefined ||
// for kebab-case
rawPrevProps[kebabKey] !== undefined)) {
props[key] = resolvePropValue(options, rawCurrentProps, key, undefined, instance, true /* isAbsent */);
}
}
else {
delete props[key];
}
}
}
// in the case of functional component w/o props declaration, props and
// attrs point to the same object so it should already have been updated.
if (attrs !== rawCurrentProps) {
for (const key in attrs) {
if (!rawProps ||
(!hasOwn(rawProps, key) &&
(!false ))) {
delete attrs[key];
hasAttrsChanged = true;
}
}
}
}
// trigger updates for $attrs in case it's used in component slots
if (hasAttrsChanged) {
trigger(instance, "set" /* SET */, '$attrs');
}
{
validateProps(rawProps || {}, props, instance);
}
}
function setFullProps(instance, rawProps, props, attrs) {
const [options, needCastKeys] = instance.propsOptions;
let hasAttrsChanged = false;
let rawCastValues;
if (rawProps) {
for (let key in rawProps) {
// key, ref are reserved and never passed down
if (isReservedProp(key)) {
continue;
}
const value = rawProps[key];
// prop option names are camelized during normalization, so to support
// kebab -> camel conversion here we need to camelize the key.
let camelKey;
if (options && hasOwn(options, (camelKey = camelize(key)))) {
if (!needCastKeys || !needCastKeys.includes(camelKey)) {
props[camelKey] = value;
}
else {
(rawCastValues || (rawCastValues = {}))[camelKey] = value;
}
}
else if (!isEmitListener(instance.emitsOptions, key)) {
if (!(key in attrs) || value !== attrs[key]) {
attrs[key] = value;
hasAttrsChanged = true;
}
}
}
}
if (needCastKeys) {
const rawCurrentProps = toRaw(props);
const castValues = rawCastValues || EMPTY_OBJ;
for (let i = 0; i < needCastKeys.length; i++) {
const key = needCastKeys[i];
props[key] = resolvePropValue(options, rawCurrentProps, key, castValues[key], instance, !hasOwn(castValues, key));
}
}
return hasAttrsChanged;
}
function resolvePropValue(options, props, key, value, instance, isAbsent) {
const opt = options[key];
if (opt != null) {
const hasDefault = hasOwn(opt, 'default');
// default values
if (hasDefault && value === undefined) {
const defaultValue = opt.default;
if (opt.type !== Function && isFunction(defaultValue)) {
const { propsDefaults } = instance;
if (key in propsDefaults) {
value = propsDefaults[key];
}
else {
setCurrentInstance(instance);
value = propsDefaults[key] = defaultValue.call(null, props);
unsetCurrentInstance();
}
}
else {
value = defaultValue;
}
}
// boolean casting
if (opt[0 /* shouldCast */]) {
if (isAbsent && !hasDefault) {
value = false;
}
else if (opt[1 /* shouldCastTrue */] &&
(value === '' || value === hyphenate(key))) {
value = true;
}
}
}
return value;
}
function normalizePropsOptions(comp, appContext, asMixin = false) {
const cache = appContext.propsCache;
const cached = cache.get(comp);
if (cached) {
return cached;
}
const raw = comp.props;
const normalized = {};
const needCastKeys = [];
// apply mixin/extends props
let hasExtends = false;
if (!isFunction(comp)) {
const extendProps = (raw) => {
hasExtends = true;
const [props, keys] = normalizePropsOptions(raw, appContext, true);
extend(normalized, props);
if (keys)
needCastKeys.push(...keys);
};
if (!asMixin && appContext.mixins.length) {
appContext.mixins.forEach(extendProps);
}
if (comp.extends) {
extendProps(comp.extends);
}
if (comp.mixins) {
comp.mixins.forEach(extendProps);
}
}
if (!raw && !hasExtends) {
cache.set(comp, EMPTY_ARR);
return EMPTY_ARR;
}
if (isArray(raw)) {
for (let i = 0; i < raw.length; i++) {
if (!isString(raw[i])) {
warn$1(`props must be strings when using array syntax.`, raw[i]);
}
const normalizedKey = camelize(raw[i]);
if (validatePropName(normalizedKey)) {
normalized[normalizedKey] = EMPTY_OBJ;
}
}
}
else if (raw) {
if (!isObject(raw)) {
warn$1(`invalid props options`, raw);
}
for (const key in raw) {
const normalizedKey = camelize(key);
if (validatePropName(normalizedKey)) {
const opt = raw[key];
const prop = (normalized[normalizedKey] =
isArray(opt) || isFunction(opt) ? { type: opt } : opt);
if (prop) {
const booleanIndex = getTypeIndex(Boolean, prop.type);
const stringIndex = getTypeIndex(String, prop.type);
prop[0 /* shouldCast */] = booleanIndex > -1;
prop[1 /* shouldCastTrue */] =
stringIndex < 0 || booleanIndex < stringIndex;
// if the prop needs boolean casting or default value
if (booleanIndex > -1 || hasOwn(prop, 'default')) {
needCastKeys.push(normalizedKey);
}
}
}
}
}
const res = [normalized, needCastKeys];
cache.set(comp, res);
return res;
}
function validatePropName(key) {
if (key[0] !== '$') {
return true;
}
else {
warn$1(`Invalid prop name: "${key}" is a reserved property.`);
}
return false;
}
// use function string name to check type constructors
// so that it works across vms / iframes.
function getType(ctor) {
const match = ctor && ctor.toString().match(/^\s*function (\w+)/);
return match ? match[1] : ctor === null ? 'null' : '';
}
function isSameType(a, b) {
return getType(a) === getType(b);
}
function getTypeIndex(type, expectedTypes) {
if (isArray(expectedTypes)) {
return expectedTypes.findIndex(t => isSameType(t, type));
}
else if (isFunction(expectedTypes)) {
return isSameType(expectedTypes, type) ? 0 : -1;
}
return -1;
}
/**
* dev only
*/
function validateProps(rawProps, props, instance) {
const resolvedValues = toRaw(props);
const options = instance.propsOptions[0];
for (const key in options) {
let opt = options[key];
if (opt == null)
continue;
validateProp(key, resolvedValues[key], opt, !hasOwn(rawProps, key) && !hasOwn(rawProps, hyphenate(key)));
}
}
/**
* dev only
*/
function validateProp(name, value, prop, isAbsent) {
const { type, required, validator } = prop;
// required!
if (required && isAbsent) {
warn$1('Missing required prop: "' + name + '"');
return;
}
// missing but optional
if (value == null && !prop.required) {
return;
}
// type check
if (type != null && type !== true) {
let isValid = false;
const types = isArray(type) ? type : [type];
const expectedTypes = [];
// value is valid as long as one of the specified types match
for (let i = 0; i < types.length && !isValid; i++) {
const { valid, expectedType } = assertType(value, types[i]);
expectedTypes.push(expectedType || '');
isValid = valid;
}
if (!isValid) {
warn$1(getInvalidTypeMessage(name, value, expectedTypes));
return;
}
}
// custom validator
if (validator && !validator(value)) {
warn$1('Invalid prop: custom validator check failed for prop "' + name + '".');
}
}
const isSimpleType = /*#__PURE__*/ makeMap('String,Number,Boolean,Function,Symbol,BigInt');
/**
* dev only
*/
function assertType(value, type) {
let valid;
const expectedType = getType(type);
if (isSimpleType(expectedType)) {
const t = typeof value;
valid = t === expectedType.toLowerCase();
// for primitive wrapper objects
if (!valid && t === 'object') {
valid = value instanceof type;
}
}
else if (expectedType === 'Object') {
valid = isObject(value);
}
else if (expectedType === 'Array') {
valid = isArray(value);
}
else if (expectedType === 'null') {
valid = value === null;
}
else {
valid = value instanceof type;
}
return {
valid,
expectedType
};
}
/**
* dev only
*/
function getInvalidTypeMessage(name, value, expectedTypes) {
let message = `Invalid prop: type check failed for prop "${name}".` +
` Expected ${expectedTypes.map(capitalize).join(' | ')}`;
const expectedType = expectedTypes[0];
const receivedType = toRawType(value);
const expectedValue = styleValue(value, expectedType);
const receivedValue = styleValue(value, receivedType);
// check if we need to specify expected value
if (expectedTypes.length === 1 &&
isExplicable(expectedType) &&
!isBoolean(expectedType, receivedType)) {
message += ` with value ${expectedValue}`;
}
message += `, got ${receivedType} `;
// check if we need to specify received value
if (isExplicable(receivedType)) {
message += `with value ${receivedValue}.`;
}
return message;
}
/**
* dev only
*/
function styleValue(value, type) {
if (type === 'String') {
return `"${value}"`;
}
else if (type === 'Number') {
return `${Number(value)}`;
}
else {
return `${value}`;
}
}
/**
* dev only
*/
function isExplicable(type) {
const explicitTypes = ['string', 'number', 'boolean'];
return explicitTypes.some(elem => type.toLowerCase() === elem);
}
/**
* dev only
*/
function isBoolean(...args) {
return args.some(elem => elem.toLowerCase() === 'boolean');
}
const isInternalKey = (key) => key[0] === '_' || key === '$stable';
const normalizeSlotValue = (value) => isArray(value)
? value.map(normalizeVNode)
: [normalizeVNode(value)];
const normalizeSlot = (key, rawSlot, ctx) => {
if (rawSlot._n) {
// already normalized - #5353
return rawSlot;
}
const normalized = withCtx((...args) => {
if (currentInstance) {
warn$1(`Slot "${key}" invoked outside of the render function: ` +
`this will not track dependencies used in the slot. ` +
`Invoke the slot function inside the render function instead.`);
}
return normalizeSlotValue(rawSlot(...args));
}, ctx);
normalized._c = false;
return normalized;
};
const normalizeObjectSlots = (rawSlots, slots, instance) => {
const ctx = rawSlots._ctx;
for (const key in rawSlots) {
if (isInternalKey(key))
continue;
const value = rawSlots[key];
if (isFunction(value)) {
slots[key] = normalizeSlot(key, value, ctx);
}
else if (value != null) {
{
warn$1(`Non-function value encountered for slot "${key}". ` +
`Prefer function slots for better performance.`);
}
const normalized = normalizeSlotValue(value);
slots[key] = () => normalized;
}
}
};
const normalizeVNodeSlots = (instance, children) => {
if (!isKeepAlive(instance.vnode) &&
!(false )) {
warn$1(`Non-function value encountered for default slot. ` +
`Prefer function slots for better performance.`);
}
const normalized = normalizeSlotValue(children);
instance.slots.default = () => normalized;
};
const initSlots = (instance, children) => {
if (instance.vnode.shapeFlag & 32 /* SLOTS_CHILDREN */) {
const type = children._;
if (type) {
// users can get the shallow readonly version of the slots object through `this.$slots`,
// we should avoid the proxy object polluting the slots of the internal instance
instance.slots = toRaw(children);
// make compiler marker non-enumerable
def(children, '_', type);
}
else {
normalizeObjectSlots(children, (instance.slots = {}));
}
}
else {
instance.slots = {};
if (children) {
normalizeVNodeSlots(instance, children);
}
}
def(instance.slots, InternalObjectKey, 1);
};
const updateSlots = (instance, children, optimized) => {
const { vnode, slots } = instance;
let needDeletionCheck = true;
let deletionComparisonTarget = EMPTY_OBJ;
if (vnode.shapeFlag & 32 /* SLOTS_CHILDREN */) {
const type = children._;
if (type) {
// compiled slots.
if (isHmrUpdating) {
// Parent was HMR updated so slot content may have changed.
// force update slots and mark instance for hmr as well
extend(slots, children);
}
else if (optimized && type === 1 /* STABLE */) {
// compiled AND stable.
// no need to update, and skip stale slots removal.
needDeletionCheck = false;
}
else {
// compiled but dynamic (v-if/v-for on slots) - update slots, but skip
// normalization.
extend(slots, children);
// #2893
// when rendering the optimized slots by manually written render function,
// we need to delete the `slots._` flag if necessary to make subsequent updates reliable,
// i.e. let the `renderSlot` create the bailed Fragment
if (!optimized && type === 1 /* STABLE */) {
delete slots._;
}
}
}
else {
needDeletionCheck = !children.$stable;
normalizeObjectSlots(children, slots);
}
deletionComparisonTarget = children;
}
else if (children) {
// non slot object children (direct value) passed to a component
normalizeVNodeSlots(instance, children);
deletionComparisonTarget = { default: 1 };
}
// delete stale slots
if (needDeletionCheck) {
for (const key in slots) {
if (!isInternalKey(key) && !(key in deletionComparisonTarget)) {
delete slots[key];
}
}
}
};
function createAppContext() {
return {
app: null,
config: {
isNativeTag: NO,
performance: false,
globalProperties: {},
optionMergeStrategies: {},
errorHandler: undefined,
warnHandler: undefined,
compilerOptions: {}
},
mixins: [],
components: {},
directives: {},
provides: Object.create(null),
optionsCache: new WeakMap(),
propsCache: new WeakMap(),
emitsCache: new WeakMap()
};
}
let uid = 0;
function createAppAPI(render, hydrate) {
return function createApp(rootComponent, rootProps = null) {
if (!isFunction(rootComponent)) {
rootComponent = { ...rootComponent };
}
if (rootProps != null && !isObject(rootProps)) {
warn$1(`root props passed to app.mount() must be an object.`);
rootProps = null;
}
const context = createAppContext();
const installedPlugins = new Set();
let isMounted = false;
const app = (context.app = {
_uid: uid++,
_component: rootComponent,
_props: rootProps,
_container: null,
_context: context,
_instance: null,
version,
get config() {
return context.config;
},
set config(v) {
{
warn$1(`app.config cannot be replaced. Modify individual options instead.`);
}
},
use(plugin, ...options) {
if (installedPlugins.has(plugin)) {
warn$1(`Plugin has already been applied to target app.`);
}
else if (plugin && isFunction(plugin.install)) {
installedPlugins.add(plugin);
plugin.install(app, ...options);
}
else if (isFunction(plugin)) {
installedPlugins.add(plugin);
plugin(app, ...options);
}
else {
warn$1(`A plugin must either be a function or an object with an "install" ` +
`function.`);
}
return app;
},
mixin(mixin) {
{
if (!context.mixins.includes(mixin)) {
context.mixins.push(mixin);
}
else {
warn$1('Mixin has already been applied to target app' +
(mixin.name ? `: ${mixin.name}` : ''));
}
}
return app;
},
component(name, component) {
{
validateComponentName(name, context.config);
}
if (!component) {
return context.components[name];
}
if (context.components[name]) {
warn$1(`Component "${name}" has already been registered in target app.`);
}
context.components[name] = component;
return app;
},
directive(name, directive) {
{
validateDirectiveName(name);
}
if (!directive) {
return context.directives[name];
}
if (context.directives[name]) {
warn$1(`Directive "${name}" has already been registered in target app.`);
}
context.directives[name] = directive;
return app;
},
mount(rootContainer, isHydrate, isSVG) {
if (!isMounted) {
// #5571
if (rootContainer.__vue_app__) {
warn$1(`There is already an app instance mounted on the host container.\n` +
` If you want to mount another app on the same host container,` +
` you need to unmount the previous app by calling \`app.unmount()\` first.`);
}
const vnode = createVNode(rootComponent, rootProps);
// store app context on the root VNode.
// this will be set on the root instance on initial mount.
vnode.appContext = context;
// HMR root reload
{
context.reload = () => {
render(cloneVNode(vnode), rootContainer, isSVG);
};
}
if (isHydrate && hydrate) {
hydrate(vnode, rootContainer);
}
else {
render(vnode, rootContainer, isSVG);
}
isMounted = true;
app._container = rootContainer;
rootContainer.__vue_app__ = app;
{
app._instance = vnode.component;
devtoolsInitApp(app, version);
}
return getExposeProxy(vnode.component) || vnode.component.proxy;
}
else {
warn$1(`App has already been mounted.\n` +
`If you want to remount the same app, move your app creation logic ` +
`into a factory function and create fresh app instances for each ` +
`mount - e.g. \`const createMyApp = () => createApp(App)\``);
}
},
unmount() {
if (isMounted) {
render(null, app._container);
{
app._instance = null;
devtoolsUnmountApp(app);
}
delete app._container.__vue_app__;
}
else {
warn$1(`Cannot unmount an app that is not mounted.`);
}
},
provide(key, value) {
if (key in context.provides) {
warn$1(`App already provides property with key "${String(key)}". ` +
`It will be overwritten with the new value.`);
}
context.provides[key] = value;
return app;
}
});
return app;
};
}
/**
* Function for handling a template ref
*/
function setRef(rawRef, oldRawRef, parentSuspense, vnode, isUnmount = false) {
if (isArray(rawRef)) {
rawRef.forEach((r, i) => setRef(r, oldRawRef && (isArray(oldRawRef) ? oldRawRef[i] : oldRawRef), parentSuspense, vnode, isUnmount));
return;
}
if (isAsyncWrapper(vnode) && !isUnmount) {
// when mounting async components, nothing needs to be done,
// because the template ref is forwarded to inner component
return;
}
const refValue = vnode.shapeFlag & 4 /* STATEFUL_COMPONENT */
? getExposeProxy(vnode.component) || vnode.component.proxy
: vnode.el;
const value = isUnmount ? null : refValue;
const { i: owner, r: ref } = rawRef;
if (!owner) {
warn$1(`Missing ref owner context. ref cannot be used on hoisted vnodes. ` +
`A vnode with ref must be created inside the render function.`);
return;
}
const oldRef = oldRawRef && oldRawRef.r;
const refs = owner.refs === EMPTY_OBJ ? (owner.refs = {}) : owner.refs;
const setupState = owner.setupState;
// dynamic ref changed. unset old ref
if (oldRef != null && oldRef !== ref) {
if (isString(oldRef)) {
refs[oldRef] = null;
if (hasOwn(setupState, oldRef)) {
setupState[oldRef] = null;
}
}
else if (isRef(oldRef)) {
oldRef.value = null;
}
}
if (isFunction(ref)) {
callWithErrorHandling(ref, owner, 12 /* FUNCTION_REF */, [value, refs]);
}
else {
const _isString = isString(ref);
const _isRef = isRef(ref);
if (_isString || _isRef) {
const doSet = () => {
if (rawRef.f) {
const existing = _isString ? refs[ref] : ref.value;
if (isUnmount) {
isArray(existing) && remove(existing, refValue);
}
else {
if (!isArray(existing)) {
if (_isString) {
refs[ref] = [refValue];
if (hasOwn(setupState, ref)) {
setupState[ref] = refs[ref];
}
}
else {
ref.value = [refValue];
if (rawRef.k)
refs[rawRef.k] = ref.value;
}
}
else if (!existing.includes(refValue)) {
existing.push(refValue);
}
}
}
else if (_isString) {
refs[ref] = value;
if (hasOwn(setupState, ref)) {
setupState[ref] = value;
}
}
else if (_isRef) {
ref.value = value;
if (rawRef.k)
refs[rawRef.k] = value;
}
else {
warn$1('Invalid template ref type:', ref, `(${typeof ref})`);
}
};
if (value) {
doSet.id = -1;
queuePostRenderEffect(doSet, parentSuspense);
}
else {
doSet();
}
}
else {
warn$1('Invalid template ref type:', ref, `(${typeof ref})`);
}
}
}
/* eslint-disable no-restricted-globals */
let supported;
let perf;
function startMeasure(instance, type) {
if (instance.appContext.config.performance && isSupported()) {
perf.mark(`vue-${type}-${instance.uid}`);
}
{
devtoolsPerfStart(instance, type, isSupported() ? perf.now() : Date.now());
}
}
function endMeasure(instance, type) {
if (instance.appContext.config.performance && isSupported()) {
const startTag = `vue-${type}-${instance.uid}`;
const endTag = startTag + `:end`;
perf.mark(endTag);
perf.measure(`<${formatComponentName(instance, instance.type)}> ${type}`, startTag, endTag);
perf.clearMarks(startTag);
perf.clearMarks(endTag);
}
{
devtoolsPerfEnd(instance, type, isSupported() ? perf.now() : Date.now());
}
}
function isSupported() {
if (supported !== undefined) {
return supported;
}
if (typeof window !== 'undefined' && window.performance) {
supported = true;
perf = window.performance;
}
else {
supported = false;
}
return supported;
}
const queuePostRenderEffect = queueEffectWithSuspense
;
/**
* The createRenderer function accepts two generic arguments:
* HostNode and HostElement, corresponding to Node and Element types in the
* host environment. For example, for runtime-dom, HostNode would be the DOM
* `Node` interface and HostElement would be the DOM `Element` interface.
*
* Custom renderers can pass in the platform specific types like this:
*
* ``` js
* const { render, createApp } = createRenderer<Node, Element>({
* patchProp,
* ...nodeOps
* })
* ```
*/
function createRenderer(options) {
return baseCreateRenderer(options);
}
// implementation
function baseCreateRenderer(options, createHydrationFns) {
const target = getGlobalThis();
target.__VUE__ = true;
{
setDevtoolsHook(target.__VUE_DEVTOOLS_GLOBAL_HOOK__, target);
}
const { insert: hostInsert, remove: hostRemove, patchProp: hostPatchProp, createElement: hostCreateElement, createText: hostCreateText, createComment: hostCreateComment, setText: hostSetText, setElementText: hostSetElementText, parentNode: hostParentNode, nextSibling: hostNextSibling, setScopeId: hostSetScopeId = NOOP, cloneNode: hostCloneNode, insertStaticContent: hostInsertStaticContent } = options;
// Note: functions inside this closure should use `const xxx = () => {}`
// style in order to prevent being inlined by minifiers.
const patch = (n1, n2, container, anchor = null, parentComponent = null, parentSuspense = null, isSVG = false, slotScopeIds = null, optimized = isHmrUpdating ? false : !!n2.dynamicChildren) => {
if (n1 === n2) {
return;
}
// patching & not same type, unmount old tree
if (n1 && !isSameVNodeType(n1, n2)) {
anchor = getNextHostNode(n1);
unmount(n1, parentComponent, parentSuspense, true);
n1 = null;
}
if (n2.patchFlag === -2 /* BAIL */) {
optimized = false;
n2.dynamicChildren = null;
}
const { type, ref, shapeFlag } = n2;
switch (type) {
case Text:
processText(n1, n2, container, anchor);
break;
case Comment:
processCommentNode(n1, n2, container, anchor);
break;
case Static:
if (n1 == null) {
mountStaticNode(n2, container, anchor, isSVG);
}
else {
patchStaticNode(n1, n2, container, isSVG);
}
break;
case Fragment:
processFragment(n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
break;
default:
if (shapeFlag & 1 /* ELEMENT */) {
processElement(n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else if (shapeFlag & 6 /* COMPONENT */) {
processComponent(n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else if (shapeFlag & 64 /* TELEPORT */) {
type.process(n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized, internals);
}
else if (shapeFlag & 128 /* SUSPENSE */) {
type.process(n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized, internals);
}
else {
warn$1('Invalid VNode type:', type, `(${typeof type})`);
}
}
// set ref
if (ref != null && parentComponent) {
setRef(ref, n1 && n1.ref, parentSuspense, n2 || n1, !n2);
}
};
const processText = (n1, n2, container, anchor) => {
if (n1 == null) {
hostInsert((n2.el = hostCreateText(n2.children)), container, anchor);
}
else {
const el = (n2.el = n1.el);
if (n2.children !== n1.children) {
hostSetText(el, n2.children);
}
}
};
const processCommentNode = (n1, n2, container, anchor) => {
if (n1 == null) {
hostInsert((n2.el = hostCreateComment(n2.children || '')), container, anchor);
}
else {
// there's no support for dynamic comments
n2.el = n1.el;
}
};
const mountStaticNode = (n2, container, anchor, isSVG) => {
[n2.el, n2.anchor] = hostInsertStaticContent(n2.children, container, anchor, isSVG, n2.el, n2.anchor);
};
/**
* Dev / HMR only
*/
const patchStaticNode = (n1, n2, container, isSVG) => {
// static nodes are only patched during dev for HMR
if (n2.children !== n1.children) {
const anchor = hostNextSibling(n1.anchor);
// remove existing
removeStaticNode(n1);
[n2.el, n2.anchor] = hostInsertStaticContent(n2.children, container, anchor, isSVG);
}
else {
n2.el = n1.el;
n2.anchor = n1.anchor;
}
};
const moveStaticNode = ({ el, anchor }, container, nextSibling) => {
let next;
while (el && el !== anchor) {
next = hostNextSibling(el);
hostInsert(el, container, nextSibling);
el = next;
}
hostInsert(anchor, container, nextSibling);
};
const removeStaticNode = ({ el, anchor }) => {
let next;
while (el && el !== anchor) {
next = hostNextSibling(el);
hostRemove(el);
el = next;
}
hostRemove(anchor);
};
const processElement = (n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized) => {
isSVG = isSVG || n2.type === 'svg';
if (n1 == null) {
mountElement(n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else {
patchElement(n1, n2, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
};
const mountElement = (vnode, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized) => {
let el;
let vnodeHook;
const { type, props, shapeFlag, transition, patchFlag, dirs } = vnode;
{
el = vnode.el = hostCreateElement(vnode.type, isSVG, props && props.is, props);
// mount children first, since some props may rely on child content
// being already rendered, e.g. `<select value>`
if (shapeFlag & 8 /* TEXT_CHILDREN */) {
hostSetElementText(el, vnode.children);
}
else if (shapeFlag & 16 /* ARRAY_CHILDREN */) {
mountChildren(vnode.children, el, null, parentComponent, parentSuspense, isSVG && type !== 'foreignObject', slotScopeIds, optimized);
}
if (dirs) {
invokeDirectiveHook(vnode, null, parentComponent, 'created');
}
// props
if (props) {
for (const key in props) {
if (key !== 'value' && !isReservedProp(key)) {
hostPatchProp(el, key, null, props[key], isSVG, vnode.children, parentComponent, parentSuspense, unmountChildren);
}
}
/**
* Special case for setting value on DOM elements:
* - it can be order-sensitive (e.g. should be set *after* min/max, #2325, #4024)
* - it needs to be forced (#1471)
* #2353 proposes adding another renderer option to configure this, but
* the properties affects are so finite it is worth special casing it
* here to reduce the complexity. (Special casing it also should not
* affect non-DOM renderers)
*/
if ('value' in props) {
hostPatchProp(el, 'value', null, props.value);
}
if ((vnodeHook = props.onVnodeBeforeMount)) {
invokeVNodeHook(vnodeHook, parentComponent, vnode);
}
}
// scopeId
setScopeId(el, vnode, vnode.scopeId, slotScopeIds, parentComponent);
}
{
Object.defineProperty(el, '__vnode', {
value: vnode,
enumerable: false
});
Object.defineProperty(el, '__vueParentComponent', {
value: parentComponent,
enumerable: false
});
}
if (dirs) {
invokeDirectiveHook(vnode, null, parentComponent, 'beforeMount');
}
// #1583 For inside suspense + suspense not resolved case, enter hook should call when suspense resolved
// #1689 For inside suspense + suspense resolved case, just call it
const needCallTransitionHooks = (!parentSuspense || (parentSuspense && !parentSuspense.pendingBranch)) &&
transition &&
!transition.persisted;
if (needCallTransitionHooks) {
transition.beforeEnter(el);
}
hostInsert(el, container, anchor);
if ((vnodeHook = props && props.onVnodeMounted) ||
needCallTransitionHooks ||
dirs) {
queuePostRenderEffect(() => {
vnodeHook && invokeVNodeHook(vnodeHook, parentComponent, vnode);
needCallTransitionHooks && transition.enter(el);
dirs && invokeDirectiveHook(vnode, null, parentComponent, 'mounted');
}, parentSuspense);
}
};
const setScopeId = (el, vnode, scopeId, slotScopeIds, parentComponent) => {
if (scopeId) {
hostSetScopeId(el, scopeId);
}
if (slotScopeIds) {
for (let i = 0; i < slotScopeIds.length; i++) {
hostSetScopeId(el, slotScopeIds[i]);
}
}
if (parentComponent) {
let subTree = parentComponent.subTree;
if (subTree.patchFlag > 0 &&
subTree.patchFlag & 2048 /* DEV_ROOT_FRAGMENT */) {
subTree =
filterSingleRoot(subTree.children) || subTree;
}
if (vnode === subTree) {
const parentVNode = parentComponent.vnode;
setScopeId(el, parentVNode, parentVNode.scopeId, parentVNode.slotScopeIds, parentComponent.parent);
}
}
};
const mountChildren = (children, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized, start = 0) => {
for (let i = start; i < children.length; i++) {
const child = (children[i] = optimized
? cloneIfMounted(children[i])
: normalizeVNode(children[i]));
patch(null, child, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
};
const patchElement = (n1, n2, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized) => {
const el = (n2.el = n1.el);
let { patchFlag, dynamicChildren, dirs } = n2;
// #1426 take the old vnode's patch flag into account since user may clone a
// compiler-generated vnode, which de-opts to FULL_PROPS
patchFlag |= n1.patchFlag & 16 /* FULL_PROPS */;
const oldProps = n1.props || EMPTY_OBJ;
const newProps = n2.props || EMPTY_OBJ;
let vnodeHook;
// disable recurse in beforeUpdate hooks
parentComponent && toggleRecurse(parentComponent, false);
if ((vnodeHook = newProps.onVnodeBeforeUpdate)) {
invokeVNodeHook(vnodeHook, parentComponent, n2, n1);
}
if (dirs) {
invokeDirectiveHook(n2, n1, parentComponent, 'beforeUpdate');
}
parentComponent && toggleRecurse(parentComponent, true);
if (isHmrUpdating) {
// HMR updated, force full diff
patchFlag = 0;
optimized = false;
dynamicChildren = null;
}
const areChildrenSVG = isSVG && n2.type !== 'foreignObject';
if (dynamicChildren) {
patchBlockChildren(n1.dynamicChildren, dynamicChildren, el, parentComponent, parentSuspense, areChildrenSVG, slotScopeIds);
if (parentComponent && parentComponent.type.__hmrId) {
traverseStaticChildren(n1, n2);
}
}
else if (!optimized) {
// full diff
patchChildren(n1, n2, el, null, parentComponent, parentSuspense, areChildrenSVG, slotScopeIds, false);
}
if (patchFlag > 0) {
// the presence of a patchFlag means this element's render code was
// generated by the compiler and can take the fast path.
// in this path old node and new node are guaranteed to have the same shape
// (i.e. at the exact same position in the source template)
if (patchFlag & 16 /* FULL_PROPS */) {
// element props contain dynamic keys, full diff needed
patchProps(el, n2, oldProps, newProps, parentComponent, parentSuspense, isSVG);
}
else {
// class
// this flag is matched when the element has dynamic class bindings.
if (patchFlag & 2 /* CLASS */) {
if (oldProps.class !== newProps.class) {
hostPatchProp(el, 'class', null, newProps.class, isSVG);
}
}
// style
// this flag is matched when the element has dynamic style bindings
if (patchFlag & 4 /* STYLE */) {
hostPatchProp(el, 'style', oldProps.style, newProps.style, isSVG);
}
// props
// This flag is matched when the element has dynamic prop/attr bindings
// other than class and style. The keys of dynamic prop/attrs are saved for
// faster iteration.
// Note dynamic keys like :[foo]="bar" will cause this optimization to
// bail out and go through a full diff because we need to unset the old key
if (patchFlag & 8 /* PROPS */) {
// if the flag is present then dynamicProps must be non-null
const propsToUpdate = n2.dynamicProps;
for (let i = 0; i < propsToUpdate.length; i++) {
const key = propsToUpdate[i];
const prev = oldProps[key];
const next = newProps[key];
// #1471 force patch value
if (next !== prev || key === 'value') {
hostPatchProp(el, key, prev, next, isSVG, n1.children, parentComponent, parentSuspense, unmountChildren);
}
}
}
}
// text
// This flag is matched when the element has only dynamic text children.
if (patchFlag & 1 /* TEXT */) {
if (n1.children !== n2.children) {
hostSetElementText(el, n2.children);
}
}
}
else if (!optimized && dynamicChildren == null) {
// unoptimized, full diff
patchProps(el, n2, oldProps, newProps, parentComponent, parentSuspense, isSVG);
}
if ((vnodeHook = newProps.onVnodeUpdated) || dirs) {
queuePostRenderEffect(() => {
vnodeHook && invokeVNodeHook(vnodeHook, parentComponent, n2, n1);
dirs && invokeDirectiveHook(n2, n1, parentComponent, 'updated');
}, parentSuspense);
}
};
// The fast path for blocks.
const patchBlockChildren = (oldChildren, newChildren, fallbackContainer, parentComponent, parentSuspense, isSVG, slotScopeIds) => {
for (let i = 0; i < newChildren.length; i++) {
const oldVNode = oldChildren[i];
const newVNode = newChildren[i];
// Determine the container (parent element) for the patch.
const container =
// oldVNode may be an errored async setup() component inside Suspense
// which will not have a mounted element
oldVNode.el &&
// - In the case of a Fragment, we need to provide the actual parent
// of the Fragment itself so it can move its children.
(oldVNode.type === Fragment ||
// - In the case of different nodes, there is going to be a replacement
// which also requires the correct parent container
!isSameVNodeType(oldVNode, newVNode) ||
// - In the case of a component, it could contain anything.
oldVNode.shapeFlag & (6 /* COMPONENT */ | 64 /* TELEPORT */))
? hostParentNode(oldVNode.el)
: // In other cases, the parent container is not actually used so we
// just pass the block element here to avoid a DOM parentNode call.
fallbackContainer;
patch(oldVNode, newVNode, container, null, parentComponent, parentSuspense, isSVG, slotScopeIds, true);
}
};
const patchProps = (el, vnode, oldProps, newProps, parentComponent, parentSuspense, isSVG) => {
if (oldProps !== newProps) {
for (const key in newProps) {
// empty string is not valid prop
if (isReservedProp(key))
continue;
const next = newProps[key];
const prev = oldProps[key];
// defer patching value
if (next !== prev && key !== 'value') {
hostPatchProp(el, key, prev, next, isSVG, vnode.children, parentComponent, parentSuspense, unmountChildren);
}
}
if (oldProps !== EMPTY_OBJ) {
for (const key in oldProps) {
if (!isReservedProp(key) && !(key in newProps)) {
hostPatchProp(el, key, oldProps[key], null, isSVG, vnode.children, parentComponent, parentSuspense, unmountChildren);
}
}
}
if ('value' in newProps) {
hostPatchProp(el, 'value', oldProps.value, newProps.value);
}
}
};
const processFragment = (n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized) => {
const fragmentStartAnchor = (n2.el = n1 ? n1.el : hostCreateText(''));
const fragmentEndAnchor = (n2.anchor = n1 ? n1.anchor : hostCreateText(''));
let { patchFlag, dynamicChildren, slotScopeIds: fragmentSlotScopeIds } = n2;
if (// #5523 dev root fragment may inherit directives
(isHmrUpdating || patchFlag & 2048 /* DEV_ROOT_FRAGMENT */)) {
// HMR updated / Dev root fragment (w/ comments), force full diff
patchFlag = 0;
optimized = false;
dynamicChildren = null;
}
// check if this is a slot fragment with :slotted scope ids
if (fragmentSlotScopeIds) {
slotScopeIds = slotScopeIds
? slotScopeIds.concat(fragmentSlotScopeIds)
: fragmentSlotScopeIds;
}
if (n1 == null) {
hostInsert(fragmentStartAnchor, container, anchor);
hostInsert(fragmentEndAnchor, container, anchor);
// a fragment can only have array children
// since they are either generated by the compiler, or implicitly created
// from arrays.
mountChildren(n2.children, container, fragmentEndAnchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else {
if (patchFlag > 0 &&
patchFlag & 64 /* STABLE_FRAGMENT */ &&
dynamicChildren &&
// #2715 the previous fragment could've been a BAILed one as a result
// of renderSlot() with no valid children
n1.dynamicChildren) {
// a stable fragment (template root or <template v-for>) doesn't need to
// patch children order, but it may contain dynamicChildren.
patchBlockChildren(n1.dynamicChildren, dynamicChildren, container, parentComponent, parentSuspense, isSVG, slotScopeIds);
if (parentComponent && parentComponent.type.__hmrId) {
traverseStaticChildren(n1, n2);
}
else if (
// #2080 if the stable fragment has a key, it's a <template v-for> that may
// get moved around. Make sure all root level vnodes inherit el.
// #2134 or if it's a component root, it may also get moved around
// as the component is being moved.
n2.key != null ||
(parentComponent && n2 === parentComponent.subTree)) {
traverseStaticChildren(n1, n2, true /* shallow */);
}
}
else {
// keyed / unkeyed, or manual fragments.
// for keyed & unkeyed, since they are compiler generated from v-for,
// each child is guaranteed to be a block so the fragment will never
// have dynamicChildren.
patchChildren(n1, n2, container, fragmentEndAnchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
}
};
const processComponent = (n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized) => {
n2.slotScopeIds = slotScopeIds;
if (n1 == null) {
if (n2.shapeFlag & 512 /* COMPONENT_KEPT_ALIVE */) {
parentComponent.ctx.activate(n2, container, anchor, isSVG, optimized);
}
else {
mountComponent(n2, container, anchor, parentComponent, parentSuspense, isSVG, optimized);
}
}
else {
updateComponent(n1, n2, optimized);
}
};
const mountComponent = (initialVNode, container, anchor, parentComponent, parentSuspense, isSVG, optimized) => {
const instance = (initialVNode.component = createComponentInstance(initialVNode, parentComponent, parentSuspense));
if (instance.type.__hmrId) {
registerHMR(instance);
}
{
pushWarningContext(initialVNode);
startMeasure(instance, `mount`);
}
// inject renderer internals for keepAlive
if (isKeepAlive(initialVNode)) {
instance.ctx.renderer = internals;
}
// resolve props and slots for setup context
{
{
startMeasure(instance, `init`);
}
setupComponent(instance);
{
endMeasure(instance, `init`);
}
}
// setup() is async. This component relies on async logic to be resolved
// before proceeding
if (instance.asyncDep) {
parentSuspense && parentSuspense.registerDep(instance, setupRenderEffect);
// Give it a placeholder if this is not hydration
// TODO handle self-defined fallback
if (!initialVNode.el) {
const placeholder = (instance.subTree = createVNode(Comment));
processCommentNode(null, placeholder, container, anchor);
}
return;
}
setupRenderEffect(instance, initialVNode, container, anchor, parentSuspense, isSVG, optimized);
{
popWarningContext();
endMeasure(instance, `mount`);
}
};
const updateComponent = (n1, n2, optimized) => {
const instance = (n2.component = n1.component);
if (shouldUpdateComponent(n1, n2, optimized)) {
if (instance.asyncDep &&
!instance.asyncResolved) {
// async & still pending - just update props and slots
// since the component's reactive effect for render isn't set-up yet
{
pushWarningContext(n2);
}
updateComponentPreRender(instance, n2, optimized);
{
popWarningContext();
}
return;
}
else {
// normal update
instance.next = n2;
// in case the child component is also queued, remove it to avoid
// double updating the same child component in the same flush.
invalidateJob(instance.update);
// instance.update is the reactive effect.
instance.update();
}
}
else {
// no update needed. just copy over properties
n2.el = n1.el;
instance.vnode = n2;
}
};
const setupRenderEffect = (instance, initialVNode, container, anchor, parentSuspense, isSVG, optimized) => {
const componentUpdateFn = () => {
if (!instance.isMounted) {
let vnodeHook;
const { el, props } = initialVNode;
const { bm, m, parent } = instance;
const isAsyncWrapperVNode = isAsyncWrapper(initialVNode);
toggleRecurse(instance, false);
// beforeMount hook
if (bm) {
invokeArrayFns(bm);
}
// onVnodeBeforeMount
if (!isAsyncWrapperVNode &&
(vnodeHook = props && props.onVnodeBeforeMount)) {
invokeVNodeHook(vnodeHook, parent, initialVNode);
}
toggleRecurse(instance, true);
if (el && hydrateNode) {
// vnode has adopted host node - perform hydration instead of mount.
const hydrateSubTree = () => {
{
startMeasure(instance, `render`);
}
instance.subTree = renderComponentRoot(instance);
{
endMeasure(instance, `render`);
}
{
startMeasure(instance, `hydrate`);
}
hydrateNode(el, instance.subTree, instance, parentSuspense, null);
{
endMeasure(instance, `hydrate`);
}
};
if (isAsyncWrapperVNode) {
initialVNode.type.__asyncLoader().then(
// note: we are moving the render call into an async callback,
// which means it won't track dependencies - but it's ok because
// a server-rendered async wrapper is already in resolved state
// and it will never need to change.
() => !instance.isUnmounted && hydrateSubTree());
}
else {
hydrateSubTree();
}
}
else {
{
startMeasure(instance, `render`);
}
const subTree = (instance.subTree = renderComponentRoot(instance));
{
endMeasure(instance, `render`);
}
{
startMeasure(instance, `patch`);
}
patch(null, subTree, container, anchor, instance, parentSuspense, isSVG);
{
endMeasure(instance, `patch`);
}
initialVNode.el = subTree.el;
}
// mounted hook
if (m) {
queuePostRenderEffect(m, parentSuspense);
}
// onVnodeMounted
if (!isAsyncWrapperVNode &&
(vnodeHook = props && props.onVnodeMounted)) {
const scopedInitialVNode = initialVNode;
queuePostRenderEffect(() => invokeVNodeHook(vnodeHook, parent, scopedInitialVNode), parentSuspense);
}
// activated hook for keep-alive roots.
// #1742 activated hook must be accessed after first render
// since the hook may be injected by a child keep-alive
if (initialVNode.shapeFlag & 256 /* COMPONENT_SHOULD_KEEP_ALIVE */ ||
(parent &&
isAsyncWrapper(parent.vnode) &&
parent.vnode.shapeFlag & 256 /* COMPONENT_SHOULD_KEEP_ALIVE */)) {
instance.a && queuePostRenderEffect(instance.a, parentSuspense);
}
instance.isMounted = true;
{
devtoolsComponentAdded(instance);
}
// #2458: deference mount-only object parameters to prevent memleaks
initialVNode = container = anchor = null;
}
else {
// updateComponent
// This is triggered by mutation of component's own state (next: null)
// OR parent calling processComponent (next: VNode)
let { next, bu, u, parent, vnode } = instance;
let originNext = next;
let vnodeHook;
{
pushWarningContext(next || instance.vnode);
}
// Disallow component effect recursion during pre-lifecycle hooks.
toggleRecurse(instance, false);
if (next) {
next.el = vnode.el;
updateComponentPreRender(instance, next, optimized);
}
else {
next = vnode;
}
// beforeUpdate hook
if (bu) {
invokeArrayFns(bu);
}
// onVnodeBeforeUpdate
if ((vnodeHook = next.props && next.props.onVnodeBeforeUpdate)) {
invokeVNodeHook(vnodeHook, parent, next, vnode);
}
toggleRecurse(instance, true);
// render
{
startMeasure(instance, `render`);
}
const nextTree = renderComponentRoot(instance);
{
endMeasure(instance, `render`);
}
const prevTree = instance.subTree;
instance.subTree = nextTree;
{
startMeasure(instance, `patch`);
}
patch(prevTree, nextTree,
// parent may have changed if it's in a teleport
hostParentNode(prevTree.el),
// anchor may have changed if it's in a fragment
getNextHostNode(prevTree), instance, parentSuspense, isSVG);
{
endMeasure(instance, `patch`);
}
next.el = nextTree.el;
if (originNext === null) {
// self-triggered update. In case of HOC, update parent component
// vnode el. HOC is indicated by parent instance's subTree pointing
// to child component's vnode
updateHOCHostEl(instance, nextTree.el);
}
// updated hook
if (u) {
queuePostRenderEffect(u, parentSuspense);
}
// onVnodeUpdated
if ((vnodeHook = next.props && next.props.onVnodeUpdated)) {
queuePostRenderEffect(() => invokeVNodeHook(vnodeHook, parent, next, vnode), parentSuspense);
}
{
devtoolsComponentUpdated(instance);
}
{
popWarningContext();
}
}
};
// create reactive effect for rendering
const effect = (instance.effect = new ReactiveEffect(componentUpdateFn, () => queueJob(update), instance.scope // track it in component's effect scope
));
const update = (instance.update = () => effect.run());
update.id = instance.uid;
// allowRecurse
// #1801, #2043 component render effects should allow recursive updates
toggleRecurse(instance, true);
{
effect.onTrack = instance.rtc
? e => invokeArrayFns(instance.rtc, e)
: void 0;
effect.onTrigger = instance.rtg
? e => invokeArrayFns(instance.rtg, e)
: void 0;
update.ownerInstance = instance;
}
update();
};
const updateComponentPreRender = (instance, nextVNode, optimized) => {
nextVNode.component = instance;
const prevProps = instance.vnode.props;
instance.vnode = nextVNode;
instance.next = null;
updateProps(instance, nextVNode.props, prevProps, optimized);
updateSlots(instance, nextVNode.children, optimized);
pauseTracking();
// props update may have triggered pre-flush watchers.
// flush them before the render update.
flushPreFlushCbs(undefined, instance.update);
resetTracking();
};
const patchChildren = (n1, n2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized = false) => {
const c1 = n1 && n1.children;
const prevShapeFlag = n1 ? n1.shapeFlag : 0;
const c2 = n2.children;
const { patchFlag, shapeFlag } = n2;
// fast path
if (patchFlag > 0) {
if (patchFlag & 128 /* KEYED_FRAGMENT */) {
// this could be either fully-keyed or mixed (some keyed some not)
// presence of patchFlag means children are guaranteed to be arrays
patchKeyedChildren(c1, c2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
return;
}
else if (patchFlag & 256 /* UNKEYED_FRAGMENT */) {
// unkeyed
patchUnkeyedChildren(c1, c2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
return;
}
}
// children has 3 possibilities: text, array or no children.
if (shapeFlag & 8 /* TEXT_CHILDREN */) {
// text children fast path
if (prevShapeFlag & 16 /* ARRAY_CHILDREN */) {
unmountChildren(c1, parentComponent, parentSuspense);
}
if (c2 !== c1) {
hostSetElementText(container, c2);
}
}
else {
if (prevShapeFlag & 16 /* ARRAY_CHILDREN */) {
// prev children was array
if (shapeFlag & 16 /* ARRAY_CHILDREN */) {
// two arrays, cannot assume anything, do full diff
patchKeyedChildren(c1, c2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else {
// no new children, just unmount old
unmountChildren(c1, parentComponent, parentSuspense, true);
}
}
else {
// prev children was text OR null
// new children is array OR null
if (prevShapeFlag & 8 /* TEXT_CHILDREN */) {
hostSetElementText(container, '');
}
// mount new if array
if (shapeFlag & 16 /* ARRAY_CHILDREN */) {
mountChildren(c2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
}
}
};
const patchUnkeyedChildren = (c1, c2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized) => {
c1 = c1 || EMPTY_ARR;
c2 = c2 || EMPTY_ARR;
const oldLength = c1.length;
const newLength = c2.length;
const commonLength = Math.min(oldLength, newLength);
let i;
for (i = 0; i < commonLength; i++) {
const nextChild = (c2[i] = optimized
? cloneIfMounted(c2[i])
: normalizeVNode(c2[i]));
patch(c1[i], nextChild, container, null, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
if (oldLength > newLength) {
// remove old
unmountChildren(c1, parentComponent, parentSuspense, true, false, commonLength);
}
else {
// mount new
mountChildren(c2, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized, commonLength);
}
};
// can be all-keyed or mixed
const patchKeyedChildren = (c1, c2, container, parentAnchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized) => {
let i = 0;
const l2 = c2.length;
let e1 = c1.length - 1; // prev ending index
let e2 = l2 - 1; // next ending index
// 1. sync from start
// (a b) c
// (a b) d e
while (i <= e1 && i <= e2) {
const n1 = c1[i];
const n2 = (c2[i] = optimized
? cloneIfMounted(c2[i])
: normalizeVNode(c2[i]));
if (isSameVNodeType(n1, n2)) {
patch(n1, n2, container, null, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else {
break;
}
i++;
}
// 2. sync from end
// a (b c)
// d e (b c)
while (i <= e1 && i <= e2) {
const n1 = c1[e1];
const n2 = (c2[e2] = optimized
? cloneIfMounted(c2[e2])
: normalizeVNode(c2[e2]));
if (isSameVNodeType(n1, n2)) {
patch(n1, n2, container, null, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else {
break;
}
e1--;
e2--;
}
// 3. common sequence + mount
// (a b)
// (a b) c
// i = 2, e1 = 1, e2 = 2
// (a b)
// c (a b)
// i = 0, e1 = -1, e2 = 0
if (i > e1) {
if (i <= e2) {
const nextPos = e2 + 1;
const anchor = nextPos < l2 ? c2[nextPos].el : parentAnchor;
while (i <= e2) {
patch(null, (c2[i] = optimized
? cloneIfMounted(c2[i])
: normalizeVNode(c2[i])), container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
i++;
}
}
}
// 4. common sequence + unmount
// (a b) c
// (a b)
// i = 2, e1 = 2, e2 = 1
// a (b c)
// (b c)
// i = 0, e1 = 0, e2 = -1
else if (i > e2) {
while (i <= e1) {
unmount(c1[i], parentComponent, parentSuspense, true);
i++;
}
}
// 5. unknown sequence
// [i ... e1 + 1]: a b [c d e] f g
// [i ... e2 + 1]: a b [e d c h] f g
// i = 2, e1 = 4, e2 = 5
else {
const s1 = i; // prev starting index
const s2 = i; // next starting index
// 5.1 build key:index map for newChildren
const keyToNewIndexMap = new Map();
for (i = s2; i <= e2; i++) {
const nextChild = (c2[i] = optimized
? cloneIfMounted(c2[i])
: normalizeVNode(c2[i]));
if (nextChild.key != null) {
if (keyToNewIndexMap.has(nextChild.key)) {
warn$1(`Duplicate keys found during update:`, JSON.stringify(nextChild.key), `Make sure keys are unique.`);
}
keyToNewIndexMap.set(nextChild.key, i);
}
}
// 5.2 loop through old children left to be patched and try to patch
// matching nodes & remove nodes that are no longer present
let j;
let patched = 0;
const toBePatched = e2 - s2 + 1;
let moved = false;
// used to track whether any node has moved
let maxNewIndexSoFar = 0;
// works as Map<newIndex, oldIndex>
// Note that oldIndex is offset by +1
// and oldIndex = 0 is a special value indicating the new node has
// no corresponding old node.
// used for determining longest stable subsequence
const newIndexToOldIndexMap = new Array(toBePatched);
for (i = 0; i < toBePatched; i++)
newIndexToOldIndexMap[i] = 0;
for (i = s1; i <= e1; i++) {
const prevChild = c1[i];
if (patched >= toBePatched) {
// all new children have been patched so this can only be a removal
unmount(prevChild, parentComponent, parentSuspense, true);
continue;
}
let newIndex;
if (prevChild.key != null) {
newIndex = keyToNewIndexMap.get(prevChild.key);
}
else {
// key-less node, try to locate a key-less node of the same type
for (j = s2; j <= e2; j++) {
if (newIndexToOldIndexMap[j - s2] === 0 &&
isSameVNodeType(prevChild, c2[j])) {
newIndex = j;
break;
}
}
}
if (newIndex === undefined) {
unmount(prevChild, parentComponent, parentSuspense, true);
}
else {
newIndexToOldIndexMap[newIndex - s2] = i + 1;
if (newIndex >= maxNewIndexSoFar) {
maxNewIndexSoFar = newIndex;
}
else {
moved = true;
}
patch(prevChild, c2[newIndex], container, null, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
patched++;
}
}
// 5.3 move and mount
// generate longest stable subsequence only when nodes have moved
const increasingNewIndexSequence = moved
? getSequence(newIndexToOldIndexMap)
: EMPTY_ARR;
j = increasingNewIndexSequence.length - 1;
// looping backwards so that we can use last patched node as anchor
for (i = toBePatched - 1; i >= 0; i--) {
const nextIndex = s2 + i;
const nextChild = c2[nextIndex];
const anchor = nextIndex + 1 < l2 ? c2[nextIndex + 1].el : parentAnchor;
if (newIndexToOldIndexMap[i] === 0) {
// mount new
patch(null, nextChild, container, anchor, parentComponent, parentSuspense, isSVG, slotScopeIds, optimized);
}
else if (moved) {
// move if:
// There is no stable subsequence (e.g. a reverse)
// OR current node is not among the stable sequence
if (j < 0 || i !== increasingNewIndexSequence[j]) {
move(nextChild, container, anchor, 2 /* REORDER */);
}
else {
j--;
}
}
}
}
};
const move = (vnode, container, anchor, moveType, parentSuspense = null) => {
const { el, type, transition, children, shapeFlag } = vnode;
if (shapeFlag & 6 /* COMPONENT */) {
move(vnode.component.subTree, container, anchor, moveType);
return;
}
if (shapeFlag & 128 /* SUSPENSE */) {
vnode.suspense.move(container, anchor, moveType);
return;
}
if (shapeFlag & 64 /* TELEPORT */) {
type.move(vnode, container, anchor, internals);
return;
}
if (type === Fragment) {
hostInsert(el, container, anchor);
for (let i = 0; i < children.length; i++) {
move(children[i], container, anchor, moveType);
}
hostInsert(vnode.anchor, container, anchor);
return;
}
if (type === Static) {
moveStaticNode(vnode, container, anchor);
return;
}
// single nodes
const needTransition = moveType !== 2 /* REORDER */ &&
shapeFlag & 1 /* ELEMENT */ &&
transition;
if (needTransition) {
if (moveType === 0 /* ENTER */) {
transition.beforeEnter(el);
hostInsert(el, container, anchor);
queuePostRenderEffect(() => transition.enter(el), parentSuspense);
}
else {
const { leave, delayLeave, afterLeave } = transition;
const remove = () => hostInsert(el, container, anchor);
const performLeave = () => {
leave(el, () => {
remove();
afterLeave && afterLeave();
});
};
if (delayLeave) {
delayLeave(el, remove, performLeave);
}
else {
performLeave();
}
}
}
else {
hostInsert(el, container, anchor);
}
};
const unmount = (vnode, parentComponent, parentSuspense, doRemove = false, optimized = false) => {
const { type, props, ref, children, dynamicChildren, shapeFlag, patchFlag, dirs } = vnode;
// unset ref
if (ref != null) {
setRef(ref, null, parentSuspense, vnode, true);
}
if (shapeFlag & 256 /* COMPONENT_SHOULD_KEEP_ALIVE */) {
parentComponent.ctx.deactivate(vnode);
return;
}
const shouldInvokeDirs = shapeFlag & 1 /* ELEMENT */ && dirs;
const shouldInvokeVnodeHook = !isAsyncWrapper(vnode);
let vnodeHook;
if (shouldInvokeVnodeHook &&
(vnodeHook = props && props.onVnodeBeforeUnmount)) {
invokeVNodeHook(vnodeHook, parentComponent, vnode);
}
if (shapeFlag & 6 /* COMPONENT */) {
unmountComponent(vnode.component, parentSuspense, doRemove);
}
else {
if (shapeFlag & 128 /* SUSPENSE */) {
vnode.suspense.unmount(parentSuspense, doRemove);
return;
}
if (shouldInvokeDirs) {
invokeDirectiveHook(vnode, null, parentComponent, 'beforeUnmount');
}
if (shapeFlag & 64 /* TELEPORT */) {
vnode.type.remove(vnode, parentComponent, parentSuspense, optimized, internals, doRemove);
}
else if (dynamicChildren &&
// #1153: fast path should not be taken for non-stable (v-for) fragments
(type !== Fragment ||
(patchFlag > 0 && patchFlag & 64 /* STABLE_FRAGMENT */))) {
// fast path for block nodes: only need to unmount dynamic children.
unmountChildren(dynamicChildren, parentComponent, parentSuspense, false, true);
}
else if ((type === Fragment &&
patchFlag &
(128 /* KEYED_FRAGMENT */ | 256 /* UNKEYED_FRAGMENT */)) ||
(!optimized && shapeFlag & 16 /* ARRAY_CHILDREN */)) {
unmountChildren(children, parentComponent, parentSuspense);
}
if (doRemove) {
remove(vnode);
}
}
if ((shouldInvokeVnodeHook &&
(vnodeHook = props && props.onVnodeUnmounted)) ||
shouldInvokeDirs) {
queuePostRenderEffect(() => {
vnodeHook && invokeVNodeHook(vnodeHook, parentComponent, vnode);
shouldInvokeDirs &&
invokeDirectiveHook(vnode, null, parentComponent, 'unmounted');
}, parentSuspense);
}
};
const remove = vnode => {
const { type, el, anchor, transition } = vnode;
if (type === Fragment) {
if (vnode.patchFlag > 0 &&
vnode.patchFlag & 2048 /* DEV_ROOT_FRAGMENT */ &&
transition &&
!transition.persisted) {
vnode.children.forEach(child => {
if (child.type === Comment) {
hostRemove(child.el);
}
else {
remove(child);
}
});
}
else {
removeFragment(el, anchor);
}
return;
}
if (type === Static) {
removeStaticNode(vnode);
return;
}
const performRemove = () => {
hostRemove(el);
if (transition && !transition.persisted && transition.afterLeave) {
transition.afterLeave();
}
};
if (vnode.shapeFlag & 1 /* ELEMENT */ &&
transition &&
!transition.persisted) {
const { leave, delayLeave } = transition;
const performLeave = () => leave(el, performRemove);
if (delayLeave) {
delayLeave(vnode.el, performRemove, performLeave);
}
else {
performLeave();
}
}
else {
performRemove();
}
};
const removeFragment = (cur, end) => {
// For fragments, directly remove all contained DOM nodes.
// (fragment child nodes cannot have transition)
let next;
while (cur !== end) {
next = hostNextSibling(cur);
hostRemove(cur);
cur = next;
}
hostRemove(end);
};
const unmountComponent = (instance, parentSuspense, doRemove) => {
if (instance.type.__hmrId) {
unregisterHMR(instance);
}
const { bum, scope, update, subTree, um } = instance;
// beforeUnmount hook
if (bum) {
invokeArrayFns(bum);
}
// stop effects in component scope
scope.stop();
// update may be null if a component is unmounted before its async
// setup has resolved.
if (update) {
// so that scheduler will no longer invoke it
update.active = false;
unmount(subTree, instance, parentSuspense, doRemove);
}
// unmounted hook
if (um) {
queuePostRenderEffect(um, parentSuspense);
}
queuePostRenderEffect(() => {
instance.isUnmounted = true;
}, parentSuspense);
// A component with async dep inside a pending suspense is unmounted before
// its async dep resolves. This should remove the dep from the suspense, and
// cause the suspense to resolve immediately if that was the last dep.
if (parentSuspense &&
parentSuspense.pendingBranch &&
!parentSuspense.isUnmounted &&
instance.asyncDep &&
!instance.asyncResolved &&
instance.suspenseId === parentSuspense.pendingId) {
parentSuspense.deps--;
if (parentSuspense.deps === 0) {
parentSuspense.resolve();
}
}
{
devtoolsComponentRemoved(instance);
}
};
const unmountChildren = (children, parentComponent, parentSuspense, doRemove = false, optimized = false, start = 0) => {
for (let i = start; i < children.length; i++) {
unmount(children[i], parentComponent, parentSuspense, doRemove, optimized);
}
};
const getNextHostNode = vnode => {
if (vnode.shapeFlag & 6 /* COMPONENT */) {
return getNextHostNode(vnode.component.subTree);
}
if (vnode.shapeFlag & 128 /* SUSPENSE */) {
return vnode.suspense.next();
}
return hostNextSibling((vnode.anchor || vnode.el));
};
const render = (vnode, container, isSVG) => {
if (vnode == null) {
if (container._vnode) {
unmount(container._vnode, null, null, true);
}
}
else {
patch(container._vnode || null, vnode, container, null, null, null, isSVG);
}
flushPostFlushCbs();
container._vnode = vnode;
};
const internals = {
p: patch,
um: unmount,
m: move,
r: remove,
mt: mountComponent,
mc: mountChildren,
pc: patchChildren,
pbc: patchBlockChildren,
n: getNextHostNode,
o: options
};
let hydrate;
let hydrateNode;
if (createHydrationFns) {
[hydrate, hydrateNode] = createHydrationFns(internals);
}
return {
render,
hydrate,
createApp: createAppAPI(render, hydrate)
};
}
function toggleRecurse({ effect, update }, allowed) {
effect.allowRecurse = update.allowRecurse = allowed;
}
/**
* #1156
* When a component is HMR-enabled, we need to make sure that all static nodes
* inside a block also inherit the DOM element from the previous tree so that
* HMR updates (which are full updates) can retrieve the element for patching.
*
* #2080
* Inside keyed `template` fragment static children, if a fragment is moved,
* the children will always be moved. Therefore, in order to ensure correct move
* position, el should be inherited from previous nodes.
*/
function traverseStaticChildren(n1, n2, shallow = false) {
const ch1 = n1.children;
const ch2 = n2.children;
if (isArray(ch1) && isArray(ch2)) {
for (let i = 0; i < ch1.length; i++) {
// this is only called in the optimized path so array children are
// guaranteed to be vnodes
const c1 = ch1[i];
let c2 = ch2[i];
if (c2.shapeFlag & 1 /* ELEMENT */ && !c2.dynamicChildren) {
if (c2.patchFlag <= 0 || c2.patchFlag === 32 /* HYDRATE_EVENTS */) {
c2 = ch2[i] = cloneIfMounted(ch2[i]);
c2.el = c1.el;
}
if (!shallow)
traverseStaticChildren(c1, c2);
}
// also inherit for comment nodes, but not placeholders (e.g. v-if which
// would have received .el during block patch)
if (c2.type === Comment && !c2.el) {
c2.el = c1.el;
}
}
}
}
// https://en.wikipedia.org/wiki/Longest_increasing_subsequence
function getSequence(arr) {
const p = arr.slice();
const result = [0];
let i, j, u, v, c;
const len = arr.length;
for (i = 0; i < len; i++) {
const arrI = arr[i];
if (arrI !== 0) {
j = result[result.length - 1];
if (arr[j] < arrI) {
p[i] = j;
result.push(i);
continue;
}
u = 0;
v = result.length - 1;
while (u < v) {
c = (u + v) >> 1;
if (arr[result[c]] < arrI) {
u = c + 1;
}
else {
v = c;
}
}
if (arrI < arr[result[u]]) {
if (u > 0) {
p[i] = result[u - 1];
}
result[u] = i;
}
}
}
u = result.length;
v = result[u - 1];
while (u-- > 0) {
result[u] = v;
v = p[v];
}
return result;
}
const isTeleport = (type) => type.__isTeleport;
const Fragment = Symbol('Fragment' );
const Text = Symbol('Text' );
const Comment = Symbol('Comment' );
const Static = Symbol('Static' );
// Since v-if and v-for are the two possible ways node structure can dynamically
// change, once we consider v-if branches and each v-for fragment a block, we
// can divide a template into nested blocks, and within each block the node
// structure would be stable. This allows us to skip most children diffing
// and only worry about the dynamic nodes (indicated by patch flags).
const blockStack = [];
let currentBlock = null;
// Whether we should be tracking dynamic child nodes inside a block.
// Only tracks when this value is > 0
// We are not using a simple boolean because this value may need to be
// incremented/decremented by nested usage of v-once (see below)
let isBlockTreeEnabled = 1;
/**
* Block tracking sometimes needs to be disabled, for example during the
* creation of a tree that needs to be cached by v-once. The compiler generates
* code like this:
*
* ``` js
* _cache[1] || (
* setBlockTracking(-1),
* _cache[1] = createVNode(...),
* setBlockTracking(1),
* _cache[1]
* )
* ```
*
* @private
*/
function setBlockTracking(value) {
isBlockTreeEnabled += value;
}
function isVNode(value) {
return value ? value.__v_isVNode === true : false;
}
function isSameVNodeType(n1, n2) {
if (n2.shapeFlag & 6 /* COMPONENT */ &&
hmrDirtyComponents.has(n2.type)) {
// HMR only: if the component has been hot-updated, force a reload.
return false;
}
return n1.type === n2.type && n1.key === n2.key;
}
const createVNodeWithArgsTransform = (...args) => {
return _createVNode(...(args));
};
const InternalObjectKey = `__vInternal`;
const normalizeKey = ({ key }) => key != null ? key : null;
const normalizeRef = ({ ref, ref_key, ref_for }) => {
return (ref != null
? isString(ref) || isRef(ref) || isFunction(ref)
? { i: currentRenderingInstance, r: ref, k: ref_key, f: !!ref_for }
: ref
: null);
};
function createBaseVNode(type, props = null, children = null, patchFlag = 0, dynamicProps = null, shapeFlag = type === Fragment ? 0 : 1 /* ELEMENT */, isBlockNode = false, needFullChildrenNormalization = false) {
const vnode = {
__v_isVNode: true,
__v_skip: true,
type,
props,
key: props && normalizeKey(props),
ref: props && normalizeRef(props),
scopeId: currentScopeId,
slotScopeIds: null,
children,
component: null,
suspense: null,
ssContent: null,
ssFallback: null,
dirs: null,
transition: null,
el: null,
anchor: null,
target: null,
targetAnchor: null,
staticCount: 0,
shapeFlag,
patchFlag,
dynamicProps,
dynamicChildren: null,
appContext: null
};
if (needFullChildrenNormalization) {
normalizeChildren(vnode, children);
// normalize suspense children
if (shapeFlag & 128 /* SUSPENSE */) {
type.normalize(vnode);
}
}
else if (children) {
// compiled element vnode - if children is passed, only possible types are
// string or Array.
vnode.shapeFlag |= isString(children)
? 8 /* TEXT_CHILDREN */
: 16 /* ARRAY_CHILDREN */;
}
// validate key
if (vnode.key !== vnode.key) {
warn$1(`VNode created with invalid key (NaN). VNode type:`, vnode.type);
}
// track vnode for block tree
if (isBlockTreeEnabled > 0 &&
// avoid a block node from tracking itself
!isBlockNode &&
// has current parent block
currentBlock &&
// presence of a patch flag indicates this node needs patching on updates.
// component nodes also should always be patched, because even if the
// component doesn't need to update, it needs to persist the instance on to
// the next vnode so that it can be properly unmounted later.
(vnode.patchFlag > 0 || shapeFlag & 6 /* COMPONENT */) &&
// the EVENTS flag is only for hydration and if it is the only flag, the
// vnode should not be considered dynamic due to handler caching.
vnode.patchFlag !== 32 /* HYDRATE_EVENTS */) {
currentBlock.push(vnode);
}
return vnode;
}
const createVNode = (createVNodeWithArgsTransform );
function _createVNode(type, props = null, children = null, patchFlag = 0, dynamicProps = null, isBlockNode = false) {
if (!type || type === NULL_DYNAMIC_COMPONENT) {
if (!type) {
warn$1(`Invalid vnode type when creating vnode: ${type}.`);
}
type = Comment;
}
if (isVNode(type)) {
// createVNode receiving an existing vnode. This happens in cases like
// <component :is="vnode"/>
// #2078 make sure to merge refs during the clone instead of overwriting it
const cloned = cloneVNode(type, props, true /* mergeRef: true */);
if (children) {
normalizeChildren(cloned, children);
}
if (isBlockTreeEnabled > 0 && !isBlockNode && currentBlock) {
if (cloned.shapeFlag & 6 /* COMPONENT */) {
currentBlock[currentBlock.indexOf(type)] = cloned;
}
else {
currentBlock.push(cloned);
}
}
cloned.patchFlag |= -2 /* BAIL */;
return cloned;
}
// class component normalization.
if (isClassComponent(type)) {
type = type.__vccOpts;
}
// class & style normalization.
if (props) {
// for reactive or proxy objects, we need to clone it to enable mutation.
props = guardReactiveProps(props);
let { class: klass, style } = props;
if (klass && !isString(klass)) {
props.class = normalizeClass(klass);
}
if (isObject(style)) {
// reactive state objects need to be cloned since they are likely to be
// mutated
if (isProxy(style) && !isArray(style)) {
style = extend({}, style);
}
props.style = normalizeStyle(style);
}
}
// encode the vnode type information into a bitmap
const shapeFlag = isString(type)
? 1 /* ELEMENT */
: isSuspense(type)
? 128 /* SUSPENSE */
: isTeleport(type)
? 64 /* TELEPORT */
: isObject(type)
? 4 /* STATEFUL_COMPONENT */
: isFunction(type)
? 2 /* FUNCTIONAL_COMPONENT */
: 0;
if (shapeFlag & 4 /* STATEFUL_COMPONENT */ && isProxy(type)) {
type = toRaw(type);
warn$1(`Vue received a Component which was made a reactive object. This can ` +
`lead to unnecessary performance overhead, and should be avoided by ` +
`marking the component with \`markRaw\` or using \`shallowRef\` ` +
`instead of \`ref\`.`, `\nComponent that was made reactive: `, type);
}
return createBaseVNode(type, props, children, patchFlag, dynamicProps, shapeFlag, isBlockNode, true);
}
function guardReactiveProps(props) {
if (!props)
return null;
return isProxy(props) || InternalObjectKey in props
? extend({}, props)
: props;
}
function cloneVNode(vnode, extraProps, mergeRef = false) {
// This is intentionally NOT using spread or extend to avoid the runtime
// key enumeration cost.
const { props, ref, patchFlag, children } = vnode;
const mergedProps = extraProps ? mergeProps(props || {}, extraProps) : props;
const cloned = {
__v_isVNode: true,
__v_skip: true,
type: vnode.type,
props: mergedProps,
key: mergedProps && normalizeKey(mergedProps),
ref: extraProps && extraProps.ref
? // #2078 in the case of <component :is="vnode" ref="extra"/>
// if the vnode itself already has a ref, cloneVNode will need to merge
// the refs so the single vnode can be set on multiple refs
mergeRef && ref
? isArray(ref)
? ref.concat(normalizeRef(extraProps))
: [ref, normalizeRef(extraProps)]
: normalizeRef(extraProps)
: ref,
scopeId: vnode.scopeId,
slotScopeIds: vnode.slotScopeIds,
children: patchFlag === -1 /* HOISTED */ && isArray(children)
? children.map(deepCloneVNode)
: children,
target: vnode.target,
targetAnchor: vnode.targetAnchor,
staticCount: vnode.staticCount,
shapeFlag: vnode.shapeFlag,
// if the vnode is cloned with extra props, we can no longer assume its
// existing patch flag to be reliable and need to add the FULL_PROPS flag.
// note: preserve flag for fragments since they use the flag for children
// fast paths only.
patchFlag: extraProps && vnode.type !== Fragment
? patchFlag === -1 // hoisted node
? 16 /* FULL_PROPS */
: patchFlag | 16 /* FULL_PROPS */
: patchFlag,
dynamicProps: vnode.dynamicProps,
dynamicChildren: vnode.dynamicChildren,
appContext: vnode.appContext,
dirs: vnode.dirs,
transition: vnode.transition,
// These should technically only be non-null on mounted VNodes. However,
// they *should* be copied for kept-alive vnodes. So we just always copy
// them since them being non-null during a mount doesn't affect the logic as
// they will simply be overwritten.
component: vnode.component,
suspense: vnode.suspense,
ssContent: vnode.ssContent && cloneVNode(vnode.ssContent),
ssFallback: vnode.ssFallback && cloneVNode(vnode.ssFallback),
el: vnode.el,
anchor: vnode.anchor
};
return cloned;
}
/**
* Dev only, for HMR of hoisted vnodes reused in v-for
* https://github.com/vitejs/vite/issues/2022
*/
function deepCloneVNode(vnode) {
const cloned = cloneVNode(vnode);
if (isArray(vnode.children)) {
cloned.children = vnode.children.map(deepCloneVNode);
}
return cloned;
}
/**
* @private
*/
function createTextVNode(text = ' ', flag = 0) {
return createVNode(Text, null, text, flag);
}
function normalizeVNode(child) {
if (child == null || typeof child === 'boolean') {
// empty placeholder
return createVNode(Comment);
}
else if (isArray(child)) {
// fragment
return createVNode(Fragment, null,
// #3666, avoid reference pollution when reusing vnode
child.slice());
}
else if (typeof child === 'object') {
// already vnode, this should be the most common since compiled templates
// always produce all-vnode children arrays
return cloneIfMounted(child);
}
else {
// strings and numbers
return createVNode(Text, null, String(child));
}
}
// optimized normalization for template-compiled render fns
function cloneIfMounted(child) {
return child.el === null || child.memo ? child : cloneVNode(child);
}
function normalizeChildren(vnode, children) {
let type = 0;
const { shapeFlag } = vnode;
if (children == null) {
children = null;
}
else if (isArray(children)) {
type = 16 /* ARRAY_CHILDREN */;
}
else if (typeof children === 'object') {
if (shapeFlag & (1 /* ELEMENT */ | 64 /* TELEPORT */)) {
// Normalize slot to plain children for plain element and Teleport
const slot = children.default;
if (slot) {
// _c marker is added by withCtx() indicating this is a compiled slot
slot._c && (slot._d = false);
normalizeChildren(vnode, slot());
slot._c && (slot._d = true);
}
return;
}
else {
type = 32 /* SLOTS_CHILDREN */;
const slotFlag = children._;
if (!slotFlag && !(InternalObjectKey in children)) {
children._ctx = currentRenderingInstance;
}
else if (slotFlag === 3 /* FORWARDED */ && currentRenderingInstance) {
// a child component receives forwarded slots from the parent.
// its slot type is determined by its parent's slot type.
if (currentRenderingInstance.slots._ === 1 /* STABLE */) {
children._ = 1 /* STABLE */;
}
else {
children._ = 2 /* DYNAMIC */;
vnode.patchFlag |= 1024 /* DYNAMIC_SLOTS */;
}
}
}
}
else if (isFunction(children)) {
children = { default: children, _ctx: currentRenderingInstance };
type = 32 /* SLOTS_CHILDREN */;
}
else {
children = String(children);
// force teleport children to array so it can be moved around
if (shapeFlag & 64 /* TELEPORT */) {
type = 16 /* ARRAY_CHILDREN */;
children = [createTextVNode(children)];
}
else {
type = 8 /* TEXT_CHILDREN */;
}
}
vnode.children = children;
vnode.shapeFlag |= type;
}
function mergeProps(...args) {
const ret = {};
for (let i = 0; i < args.length; i++) {
const toMerge = args[i];
for (const key in toMerge) {
if (key === 'class') {
if (ret.class !== toMerge.class) {
ret.class = normalizeClass([ret.class, toMerge.class]);
}
}
else if (key === 'style') {
ret.style = normalizeStyle([ret.style, toMerge.style]);
}
else if (isOn(key)) {
const existing = ret[key];
const incoming = toMerge[key];
if (incoming &&
existing !== incoming &&
!(isArray(existing) && existing.includes(incoming))) {
ret[key] = existing
? [].concat(existing, incoming)
: incoming;
}
}
else if (key !== '') {
ret[key] = toMerge[key];
}
}
}
return ret;
}
function invokeVNodeHook(hook, instance, vnode, prevVNode = null) {
callWithAsyncErrorHandling(hook, instance, 7 /* VNODE_HOOK */, [
vnode,
prevVNode
]);
}
const emptyAppContext = createAppContext();
let uid$1 = 0;
function createComponentInstance(vnode, parent, suspense) {
const type = vnode.type;
// inherit parent app context - or - if root, adopt from root vnode
const appContext = (parent ? parent.appContext : vnode.appContext) || emptyAppContext;
const instance = {
uid: uid$1++,
vnode,
type,
parent,
appContext,
root: null,
next: null,
subTree: null,
effect: null,
update: null,
scope: new EffectScope(true /* detached */),
render: null,
proxy: null,
exposed: null,
exposeProxy: null,
withProxy: null,
provides: parent ? parent.provides : Object.create(appContext.provides),
accessCache: null,
renderCache: [],
// local resolved assets
components: null,
directives: null,
// resolved props and emits options
propsOptions: normalizePropsOptions(type, appContext),
emitsOptions: normalizeEmitsOptions(type, appContext),
// emit
emit: null,
emitted: null,
// props default value
propsDefaults: EMPTY_OBJ,
// inheritAttrs
inheritAttrs: type.inheritAttrs,
// state
ctx: EMPTY_OBJ,
data: EMPTY_OBJ,
props: EMPTY_OBJ,
attrs: EMPTY_OBJ,
slots: EMPTY_OBJ,
refs: EMPTY_OBJ,
setupState: EMPTY_OBJ,
setupContext: null,
// suspense related
suspense,
suspenseId: suspense ? suspense.pendingId : 0,
asyncDep: null,
asyncResolved: false,
// lifecycle hooks
// not using enums here because it results in computed properties
isMounted: false,
isUnmounted: false,
isDeactivated: false,
bc: null,
c: null,
bm: null,
m: null,
bu: null,
u: null,
um: null,
bum: null,
da: null,
a: null,
rtg: null,
rtc: null,
ec: null,
sp: null
};
{
instance.ctx = createDevRenderContext(instance);
}
instance.root = parent ? parent.root : instance;
instance.emit = emit$1.bind(null, instance);
// apply custom element special handling
if (vnode.ce) {
vnode.ce(instance);
}
return instance;
}
let currentInstance = null;
const setCurrentInstance = (instance) => {
currentInstance = instance;
instance.scope.on();
};
const unsetCurrentInstance = () => {
currentInstance && currentInstance.scope.off();
currentInstance = null;
};
const isBuiltInTag = /*#__PURE__*/ makeMap('slot,component');
function validateComponentName(name, config) {
const appIsNativeTag = config.isNativeTag || NO;
if (isBuiltInTag(name) || appIsNativeTag(name)) {
warn$1('Do not use built-in or reserved HTML elements as component id: ' + name);
}
}
function isStatefulComponent(instance) {
return instance.vnode.shapeFlag & 4 /* STATEFUL_COMPONENT */;
}
let isInSSRComponentSetup = false;
function setupComponent(instance, isSSR = false) {
isInSSRComponentSetup = isSSR;
const { props, children } = instance.vnode;
const isStateful = isStatefulComponent(instance);
initProps(instance, props, isStateful, isSSR);
initSlots(instance, children);
const setupResult = isStateful
? setupStatefulComponent(instance, isSSR)
: undefined;
isInSSRComponentSetup = false;
return setupResult;
}
function setupStatefulComponent(instance, isSSR) {
var _a;
const Component = instance.type;
{
if (Component.name) {
validateComponentName(Component.name, instance.appContext.config);
}
if (Component.components) {
const names = Object.keys(Component.components);
for (let i = 0; i < names.length; i++) {
validateComponentName(names[i], instance.appContext.config);
}
}
if (Component.directives) {
const names = Object.keys(Component.directives);
for (let i = 0; i < names.length; i++) {
validateDirectiveName(names[i]);
}
}
if (Component.compilerOptions && isRuntimeOnly()) {
warn$1(`"compilerOptions" is only supported when using a build of Vue that ` +
`includes the runtime compiler. Since you are using a runtime-only ` +
`build, the options should be passed via your build tool config instead.`);
}
}
// 0. create render proxy property access cache
instance.accessCache = Object.create(null);
// 1. create public instance / render proxy
// also mark it raw so it's never observed
instance.proxy = markRaw(new Proxy(instance.ctx, PublicInstanceProxyHandlers));
{
exposePropsOnRenderContext(instance);
}
// 2. call setup()
const { setup } = Component;
if (setup) {
const setupContext = (instance.setupContext =
setup.length > 1 ? createSetupContext(instance) : null);
setCurrentInstance(instance);
pauseTracking();
const setupResult = callWithErrorHandling(setup, instance, 0 /* SETUP_FUNCTION */, [shallowReadonly(instance.props) , setupContext]);
resetTracking();
unsetCurrentInstance();
if (isPromise(setupResult)) {
setupResult.then(unsetCurrentInstance, unsetCurrentInstance);
if (isSSR) {
// return the promise so server-renderer can wait on it
return setupResult
.then((resolvedResult) => {
handleSetupResult(instance, resolvedResult, isSSR);
})
.catch(e => {
handleError(e, instance, 0 /* SETUP_FUNCTION */);
});
}
else {
// async setup returned Promise.
// bail here and wait for re-entry.
instance.asyncDep = setupResult;
if (!instance.suspense) {
const name = (_a = Component.name) !== null && _a !== void 0 ? _a : 'Anonymous';
warn$1(`Component <${name}>: setup function returned a promise, but no ` +
`<Suspense> boundary was found in the parent component tree. ` +
`A component with async setup() must be nested in a <Suspense> ` +
`in order to be rendered.`);
}
}
}
else {
handleSetupResult(instance, setupResult, isSSR);
}
}
else {
finishComponentSetup(instance, isSSR);
}
}
function handleSetupResult(instance, setupResult, isSSR) {
if (isFunction(setupResult)) {
// setup returned an inline render function
if (instance.type.__ssrInlineRender) {
// when the function's name is `ssrRender` (compiled by SFC inline mode),
// set it as ssrRender instead.
instance.ssrRender = setupResult;
}
else {
instance.render = setupResult;
}
}
else if (isObject(setupResult)) {
if (isVNode(setupResult)) {
warn$1(`setup() should not return VNodes directly - ` +
`return a render function instead.`);
}
// setup returned bindings.
// assuming a render function compiled from template is present.
{
instance.devtoolsRawSetupState = setupResult;
}
instance.setupState = proxyRefs(setupResult);
{
exposeSetupStateOnRenderContext(instance);
}
}
else if (setupResult !== undefined) {
warn$1(`setup() should return an object. Received: ${setupResult === null ? 'null' : typeof setupResult}`);
}
finishComponentSetup(instance, isSSR);
}
let compile;
// dev only
const isRuntimeOnly = () => !compile;
function finishComponentSetup(instance, isSSR, skipOptions) {
const Component = instance.type;
// template / render function normalization
// could be already set when returned from setup()
if (!instance.render) {
// only do on-the-fly compile if not in SSR - SSR on-the-fly compilation
// is done by server-renderer
if (!isSSR && compile && !Component.render) {
const template = Component.template;
if (template) {
{
startMeasure(instance, `compile`);
}
const { isCustomElement, compilerOptions } = instance.appContext.config;
const { delimiters, compilerOptions: componentCompilerOptions } = Component;
extend(extend({
isCustomElement,
delimiters
}, compilerOptions), componentCompilerOptions);
Component.render = compile();
{
endMeasure(instance, `compile`);
}
}
}
instance.render = (Component.render || NOOP);
}
// support for 2.x options
{
setCurrentInstance(instance);
pauseTracking();
applyOptions(instance);
resetTracking();
unsetCurrentInstance();
}
// warn missing template/render
// the runtime compilation of template in SSR is done by server-render
if (!Component.render && instance.render === NOOP && !isSSR) {
/* istanbul ignore if */
if (Component.template) {
warn$1(`Component provided template option but ` +
`runtime compilation is not supported in this build of Vue.` +
(` Use "vue.esm-browser.js" instead.`
) /* should not happen */);
}
else {
warn$1(`Component is missing template or render function.`);
}
}
}
function createAttrsProxy(instance) {
return new Proxy(instance.attrs, {
get(target, key) {
markAttrsAccessed();
track(instance, "get" /* GET */, '$attrs');
return target[key];
},
set() {
warn$1(`setupContext.attrs is readonly.`);
return false;
},
deleteProperty() {
warn$1(`setupContext.attrs is readonly.`);
return false;
}
}
);
}
function createSetupContext(instance) {
const expose = exposed => {
if (instance.exposed) {
warn$1(`expose() should be called only once per setup().`);
}
instance.exposed = exposed || {};
};
let attrs;
{
// We use getters in dev in case libs like test-utils overwrite instance
// properties (overwrites should not be done in prod)
return Object.freeze({
get attrs() {
return attrs || (attrs = createAttrsProxy(instance));
},
get slots() {
return shallowReadonly(instance.slots);
},
get emit() {
return (event, ...args) => instance.emit(event, ...args);
},
expose
});
}
}
function getExposeProxy(instance) {
if (instance.exposed) {
return (instance.exposeProxy ||
(instance.exposeProxy = new Proxy(proxyRefs(markRaw(instance.exposed)), {
get(target, key) {
if (key in target) {
return target[key];
}
else if (key in publicPropertiesMap) {
return publicPropertiesMap[key](instance);
}
}
})));
}
}
const classifyRE = /(?:^|[-_])(\w)/g;
const classify = (str) => str.replace(classifyRE, c => c.toUpperCase()).replace(/[-_]/g, '');
function getComponentName(Component, includeInferred = true) {
return isFunction(Component)
? Component.displayName || Component.name
: Component.name || (includeInferred && Component.__name);
}
/* istanbul ignore next */
function formatComponentName(instance, Component, isRoot = false) {
let name = getComponentName(Component);
if (!name && Component.__file) {
const match = Component.__file.match(/([^/\\]+)\.\w+$/);
if (match) {
name = match[1];
}
}
if (!name && instance && instance.parent) {
// try to infer the name based on reverse resolution
const inferFromRegistry = (registry) => {
for (const key in registry) {
if (registry[key] === Component) {
return key;
}
}
};
name =
inferFromRegistry(instance.components ||
instance.parent.type.components) || inferFromRegistry(instance.appContext.components);
}
return name ? classify(name) : isRoot ? `App` : `Anonymous`;
}
function isClassComponent(value) {
return isFunction(value) && '__vccOpts' in value;
}
const computed$1 = ((getterOrOptions, debugOptions) => {
// @ts-ignore
return computed(getterOrOptions, debugOptions, isInSSRComponentSetup);
});
const ssrContextKey = Symbol(`ssrContext` );
// Core API ------------------------------------------------------------------
const version = "3.2.37";
const _ssrUtils = {
createComponentInstance,
setupComponent,
renderComponentRoot,
setCurrentRenderingInstance,
isVNode,
normalizeVNode
};
/**
* SSR utils for \@vue/server-renderer. Only exposed in ssr-possible builds.
* @internal
*/
const ssrUtils = (_ssrUtils );
const svgNS = 'http://www.w3.org/2000/svg';
const doc = (typeof document !== 'undefined' ? document : null);
const templateContainer = doc && /*#__PURE__*/ doc.createElement('template');
const nodeOps = {
insert: (child, parent, anchor) => {
parent.insertBefore(child, anchor || null);
},
remove: child => {
const parent = child.parentNode;
if (parent) {
parent.removeChild(child);
}
},
createElement: (tag, isSVG, is, props) => {
const el = isSVG
? doc.createElementNS(svgNS, tag)
: doc.createElement(tag, is ? { is } : undefined);
if (tag === 'select' && props && props.multiple != null) {
el.setAttribute('multiple', props.multiple);
}
return el;
},
createText: text => doc.createTextNode(text),
createComment: text => doc.createComment(text),
setText: (node, text) => {
node.nodeValue = text;
},
setElementText: (el, text) => {
el.textContent = text;
},
parentNode: node => node.parentNode,
nextSibling: node => node.nextSibling,
querySelector: selector => doc.querySelector(selector),
setScopeId(el, id) {
el.setAttribute(id, '');
},
cloneNode(el) {
const cloned = el.cloneNode(true);
// #3072
// - in `patchDOMProp`, we store the actual value in the `el._value` property.
// - normally, elements using `:value` bindings will not be hoisted, but if
// the bound value is a constant, e.g. `:value="true"` - they do get
// hoisted.
// - in production, hoisted nodes are cloned when subsequent inserts, but
// cloneNode() does not copy the custom property we attached.
// - This may need to account for other custom DOM properties we attach to
// elements in addition to `_value` in the future.
if (`_value` in el) {
cloned._value = el._value;
}
return cloned;
},
// __UNSAFE__
// Reason: innerHTML.
// Static content here can only come from compiled templates.
// As long as the user only uses trusted templates, this is safe.
insertStaticContent(content, parent, anchor, isSVG, start, end) {
// <parent> before | first ... last | anchor </parent>
const before = anchor ? anchor.previousSibling : parent.lastChild;
// #5308 can only take cached path if:
// - has a single root node
// - nextSibling info is still available
if (start && (start === end || start.nextSibling)) {
// cached
while (true) {
parent.insertBefore(start.cloneNode(true), anchor);
if (start === end || !(start = start.nextSibling))
break;
}
}
else {
// fresh insert
templateContainer.innerHTML = isSVG ? `<svg>${content}</svg>` : content;
const template = templateContainer.content;
if (isSVG) {
// remove outer svg wrapper
const wrapper = template.firstChild;
while (wrapper.firstChild) {
template.appendChild(wrapper.firstChild);
}
template.removeChild(wrapper);
}
parent.insertBefore(template, anchor);
}
return [
// first
before ? before.nextSibling : parent.firstChild,
// last
anchor ? anchor.previousSibling : parent.lastChild
];
}
};
// compiler should normalize class + :class bindings on the same element
// into a single binding ['staticClass', dynamic]
function patchClass(el, value, isSVG) {
// directly setting className should be faster than setAttribute in theory
// if this is an element during a transition, take the temporary transition
// classes into account.
const transitionClasses = el._vtc;
if (transitionClasses) {
value = (value ? [value, ...transitionClasses] : [...transitionClasses]).join(' ');
}
if (value == null) {
el.removeAttribute('class');
}
else if (isSVG) {
el.setAttribute('class', value);
}
else {
el.className = value;
}
}
function patchStyle(el, prev, next) {
const style = el.style;
const isCssString = isString(next);
if (next && !isCssString) {
for (const key in next) {
setStyle(style, key, next[key]);
}
if (prev && !isString(prev)) {
for (const key in prev) {
if (next[key] == null) {
setStyle(style, key, '');
}
}
}
}
else {
const currentDisplay = style.display;
if (isCssString) {
if (prev !== next) {
style.cssText = next;
}
}
else if (prev) {
el.removeAttribute('style');
}
// indicates that the `display` of the element is controlled by `v-show`,
// so we always keep the current `display` value regardless of the `style`
// value, thus handing over control to `v-show`.
if ('_vod' in el) {
style.display = currentDisplay;
}
}
}
const importantRE = /\s*!important$/;
function setStyle(style, name, val) {
if (isArray(val)) {
val.forEach(v => setStyle(style, name, v));
}
else {
if (val == null)
val = '';
if (name.startsWith('--')) {
// custom property definition
style.setProperty(name, val);
}
else {
const prefixed = autoPrefix(style, name);
if (importantRE.test(val)) {
// !important
style.setProperty(hyphenate(prefixed), val.replace(importantRE, ''), 'important');
}
else {
style[prefixed] = val;
}
}
}
}
const prefixes = ['Webkit', 'Moz', 'ms'];
const prefixCache = {};
function autoPrefix(style, rawName) {
const cached = prefixCache[rawName];
if (cached) {
return cached;
}
let name = camelize(rawName);
if (name !== 'filter' && name in style) {
return (prefixCache[rawName] = name);
}
name = capitalize(name);
for (let i = 0; i < prefixes.length; i++) {
const prefixed = prefixes[i] + name;
if (prefixed in style) {
return (prefixCache[rawName] = prefixed);
}
}
return rawName;
}
const xlinkNS = 'http://www.w3.org/1999/xlink';
function patchAttr(el, key, value, isSVG, instance) {
if (isSVG && key.startsWith('xlink:')) {
if (value == null) {
el.removeAttributeNS(xlinkNS, key.slice(6, key.length));
}
else {
el.setAttributeNS(xlinkNS, key, value);
}
}
else {
// note we are only checking boolean attributes that don't have a
// corresponding dom prop of the same name here.
const isBoolean = isSpecialBooleanAttr(key);
if (value == null || (isBoolean && !includeBooleanAttr(value))) {
el.removeAttribute(key);
}
else {
el.setAttribute(key, isBoolean ? '' : value);
}
}
}
// __UNSAFE__
// functions. The user is responsible for using them with only trusted content.
function patchDOMProp(el, key, value,
// the following args are passed only due to potential innerHTML/textContent
// overriding existing VNodes, in which case the old tree must be properly
// unmounted.
prevChildren, parentComponent, parentSuspense, unmountChildren) {
if (key === 'innerHTML' || key === 'textContent') {
if (prevChildren) {
unmountChildren(prevChildren, parentComponent, parentSuspense);
}
el[key] = value == null ? '' : value;
return;
}
if (key === 'value' &&
el.tagName !== 'PROGRESS' &&
// custom elements may use _value internally
!el.tagName.includes('-')) {
// store value as _value as well since
// non-string values will be stringified.
el._value = value;
const newValue = value == null ? '' : value;
if (el.value !== newValue ||
// #4956: always set for OPTION elements because its value falls back to
// textContent if no value attribute is present. And setting .value for
// OPTION has no side effect
el.tagName === 'OPTION') {
el.value = newValue;
}
if (value == null) {
el.removeAttribute(key);
}
return;
}
let needRemove = false;
if (value === '' || value == null) {
const type = typeof el[key];
if (type === 'boolean') {
// e.g. <select multiple> compiles to { multiple: '' }
value = includeBooleanAttr(value);
}
else if (value == null && type === 'string') {
// e.g. <div :id="null">
value = '';
needRemove = true;
}
else if (type === 'number') {
// e.g. <img :width="null">
// the value of some IDL attr must be greater than 0, e.g. input.size = 0 -> error
value = 0;
needRemove = true;
}
}
// some properties perform value validation and throw,
// some properties has getter, no setter, will error in 'use strict'
// eg. <select :type="null"></select> <select :willValidate="null"></select>
try {
el[key] = value;
}
catch (e) {
{
warn$1(`Failed setting prop "${key}" on <${el.tagName.toLowerCase()}>: ` +
`value ${value} is invalid.`, e);
}
}
needRemove && el.removeAttribute(key);
}
// Async edge case fix requires storing an event listener's attach timestamp.
const [_getNow, skipTimestampCheck] = /*#__PURE__*/ (() => {
let _getNow = Date.now;
let skipTimestampCheck = false;
if (typeof window !== 'undefined') {
// 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.
if (Date.now() > document.createEvent('Event').timeStamp) {
// if the low-res timestamp which is bigger than the event timestamp
// (which is evaluated AFTER) it means the event is using a hi-res timestamp,
// and we need to use the hi-res version for event listeners as well.
_getNow = performance.now.bind(performance);
}
// #3485: Firefox <= 53 has incorrect Event.timeStamp implementation
// and does not fire microtasks in between event propagation, so safe to exclude.
const ffMatch = navigator.userAgent.match(/firefox\/(\d+)/i);
skipTimestampCheck = !!(ffMatch && Number(ffMatch[1]) <= 53);
}
return [_getNow, skipTimestampCheck];
})();
// To avoid the overhead of repeatedly calling performance.now(), we cache
// and use the same timestamp for all event listeners attached in the same tick.
let cachedNow = 0;
const p = /*#__PURE__*/ Promise.resolve();
const reset = () => {
cachedNow = 0;
};
const getNow = () => cachedNow || (p.then(reset), (cachedNow = _getNow()));
function addEventListener(el, event, handler, options) {
el.addEventListener(event, handler, options);
}
function removeEventListener(el, event, handler, options) {
el.removeEventListener(event, handler, options);
}
function patchEvent(el, rawName, prevValue, nextValue, instance = null) {
// vei = vue event invokers
const invokers = el._vei || (el._vei = {});
const existingInvoker = invokers[rawName];
if (nextValue && existingInvoker) {
// patch
existingInvoker.value = nextValue;
}
else {
const [name, options] = parseName(rawName);
if (nextValue) {
// add
const invoker = (invokers[rawName] = createInvoker(nextValue, instance));
addEventListener(el, name, invoker, options);
}
else if (existingInvoker) {
// remove
removeEventListener(el, name, existingInvoker, options);
invokers[rawName] = undefined;
}
}
}
const optionsModifierRE = /(?:Once|Passive|Capture)$/;
function parseName(name) {
let options;
if (optionsModifierRE.test(name)) {
options = {};
let m;
while ((m = name.match(optionsModifierRE))) {
name = name.slice(0, name.length - m[0].length);
options[m[0].toLowerCase()] = true;
}
}
return [hyphenate(name.slice(2)), options];
}
function createInvoker(initialValue, instance) {
const invoker = (e) => {
// 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.
const timeStamp = e.timeStamp || _getNow();
if (skipTimestampCheck || timeStamp >= invoker.attached - 1) {
callWithAsyncErrorHandling(patchStopImmediatePropagation(e, invoker.value), instance, 5 /* NATIVE_EVENT_HANDLER */, [e]);
}
};
invoker.value = initialValue;
invoker.attached = getNow();
return invoker;
}
function patchStopImmediatePropagation(e, value) {
if (isArray(value)) {
const originalStop = e.stopImmediatePropagation;
e.stopImmediatePropagation = () => {
originalStop.call(e);
e._stopped = true;
};
return value.map(fn => (e) => !e._stopped && fn && fn(e));
}
else {
return value;
}
}
const nativeOnRE = /^on[a-z]/;
const patchProp = (el, key, prevValue, nextValue, isSVG = false, prevChildren, parentComponent, parentSuspense, unmountChildren) => {
if (key === 'class') {
patchClass(el, nextValue, isSVG);
}
else if (key === 'style') {
patchStyle(el, prevValue, nextValue);
}
else if (isOn(key)) {
// ignore v-model listeners
if (!isModelListener(key)) {
patchEvent(el, key, prevValue, nextValue, parentComponent);
}
}
else if (key[0] === '.'
? ((key = key.slice(1)), true)
: key[0] === '^'
? ((key = key.slice(1)), false)
: shouldSetAsProp(el, key, nextValue, isSVG)) {
patchDOMProp(el, key, nextValue, prevChildren, parentComponent, parentSuspense, unmountChildren);
}
else {
// special case for <input v-model type="checkbox"> with
// :true-value & :false-value
// store value as dom properties since non-string values will be
// stringified.
if (key === 'true-value') {
el._trueValue = nextValue;
}
else if (key === 'false-value') {
el._falseValue = nextValue;
}
patchAttr(el, key, nextValue, isSVG);
}
};
function shouldSetAsProp(el, key, value, isSVG) {
if (isSVG) {
// most keys must be set as attribute on svg elements to work
// ...except innerHTML & textContent
if (key === 'innerHTML' || key === 'textContent') {
return true;
}
// or native onclick with function values
if (key in el && nativeOnRE.test(key) && isFunction(value)) {
return true;
}
return false;
}
// these are enumerated attrs, however their corresponding DOM properties
// are actually booleans - this leads to setting it with a string "false"
// value leading it to be coerced to `true`, so we need to always treat
// them as attributes.
// Note that `contentEditable` doesn't have this problem: its DOM
// property is also enumerated string values.
if (key === 'spellcheck' || key === 'draggable' || key === 'translate') {
return false;
}
// #1787, #2840 form property on form elements is readonly and must be set as
// attribute.
if (key === 'form') {
return false;
}
// #1526 <input list> must be set as attribute
if (key === 'list' && el.tagName === 'INPUT') {
return false;
}
// #2766 <textarea type> must be set as attribute
if (key === 'type' && el.tagName === 'TEXTAREA') {
return false;
}
// native onclick with string value, must be set as attribute
if (nativeOnRE.test(key) && isString(value)) {
return false;
}
return key in el;
}
const rendererOptions = /*#__PURE__*/ extend({ patchProp }, nodeOps);
// lazy create the renderer - this makes core renderer logic tree-shakable
// in case the user only imports reactivity utilities from Vue.
let renderer;
function ensureRenderer() {
return (renderer ||
(renderer = createRenderer(rendererOptions)));
}
const createApp = ((...args) => {
const app = ensureRenderer().createApp(...args);
{
injectNativeTagCheck(app);
injectCompilerOptionsCheck(app);
}
const { mount } = app;
app.mount = (containerOrSelector) => {
const container = normalizeContainer(containerOrSelector);
if (!container)
return;
const component = app._component;
if (!isFunction(component) && !component.render && !component.template) {
// __UNSAFE__
// Reason: potential execution of JS expressions in in-DOM template.
// The user must make sure the in-DOM template is trusted. If it's
// rendered by the server, the template should not contain any user data.
component.template = container.innerHTML;
}
// clear content before mounting
container.innerHTML = '';
const proxy = mount(container, false, container instanceof SVGElement);
if (container instanceof Element) {
container.removeAttribute('v-cloak');
container.setAttribute('data-v-app', '');
}
return proxy;
};
return app;
});
function injectNativeTagCheck(app) {
// Inject `isNativeTag`
// this is used for component name validation (dev only)
Object.defineProperty(app.config, 'isNativeTag', {
value: (tag) => isHTMLTag(tag) || isSVGTag(tag),
writable: false
});
}
// dev only
function injectCompilerOptionsCheck(app) {
{
const isCustomElement = app.config.isCustomElement;
Object.defineProperty(app.config, 'isCustomElement', {
get() {
return isCustomElement;
},
set() {
warn$1(`The \`isCustomElement\` config option is deprecated. Use ` +
`\`compilerOptions.isCustomElement\` instead.`);
}
});
const compilerOptions = app.config.compilerOptions;
const msg = `The \`compilerOptions\` config option is only respected when using ` +
`a build of Vue.js that includes the runtime compiler (aka "full build"). ` +
`Since you are using the runtime-only build, \`compilerOptions\` ` +
`must be passed to \`@vue/compiler-dom\` in the build setup instead.\n` +
`- For vue-loader: pass it via vue-loader's \`compilerOptions\` loader option.\n` +
`- For vue-cli: see https://cli.vuejs.org/guide/webpack.html#modifying-options-of-a-loader\n` +
`- For vite: pass it via @vitejs/plugin-vue options. See https://github.com/vitejs/vite/tree/main/packages/plugin-vue#example-for-passing-options-to-vuecompiler-dom`;
Object.defineProperty(app.config, 'compilerOptions', {
get() {
warn$1(msg);
return compilerOptions;
},
set() {
warn$1(msg);
}
});
}
}
function normalizeContainer(container) {
if (isString(container)) {
const res = document.querySelector(container);
if (!res) {
warn$1(`Failed to mount app: mount target selector "${container}" returned null.`);
}
return res;
}
if (window.ShadowRoot &&
container instanceof window.ShadowRoot &&
container.mode === 'closed') {
warn$1(`mounting on a ShadowRoot with \`{mode: "closed"}\` may lead to unpredictable bugs`);
}
return container;
}
// leading comma for empty string ""
const shouldIgnoreProp = makeMap(`,key,ref,innerHTML,textContent,ref_key,ref_for`);
function ssrRenderAttrs(props, tag) {
let ret = '';
for (const key in props) {
if (shouldIgnoreProp(key) ||
isOn(key) ||
(tag === 'textarea' && key === 'value')) {
continue;
}
const value = props[key];
if (key === 'class') {
ret += ` class="${ssrRenderClass(value)}"`;
}
else if (key === 'style') {
ret += ` style="${ssrRenderStyle(value)}"`;
}
else {
ret += ssrRenderDynamicAttr(key, value, tag);
}
}
return ret;
}
// render an attr with dynamic (unknown) key.
function ssrRenderDynamicAttr(key, value, tag) {
if (!isRenderableValue(value)) {
return ``;
}
const attrKey = tag && tag.indexOf('-') > 0
? key // preserve raw name on custom elements
: propsToAttrMap[key] || key.toLowerCase();
if (isBooleanAttr(attrKey)) {
return includeBooleanAttr(value) ? ` ${attrKey}` : ``;
}
else if (isSSRSafeAttrName(attrKey)) {
return value === '' ? ` ${attrKey}` : ` ${attrKey}="${escapeHtml(value)}"`;
}
else {
console.warn(`[@vue/server-renderer] Skipped rendering unsafe attribute name: ${attrKey}`);
return ``;
}
}
// Render a v-bind attr with static key. The key is pre-processed at compile
// time and we only need to check and escape value.
function ssrRenderAttr(key, value) {
if (!isRenderableValue(value)) {
return ``;
}
return ` ${key}="${escapeHtml(value)}"`;
}
function isRenderableValue(value) {
if (value == null) {
return false;
}
const type = typeof value;
return type === 'string' || type === 'number' || type === 'boolean';
}
function ssrRenderClass(raw) {
return escapeHtml(normalizeClass(raw));
}
function ssrRenderStyle(raw) {
if (!raw) {
return '';
}
if (isString(raw)) {
return escapeHtml(raw);
}
const styles = normalizeStyle(raw);
return escapeHtml(stringifyStyle(styles));
}
function ssrCompile(template, instance) {
{
throw new Error(`On-the-fly template compilation is not supported in the ESM build of ` +
`@vue/server-renderer. All templates must be pre-compiled into ` +
`render functions.`);
}
}
function ssrRenderTeleport(parentPush, contentRenderFn, target, disabled, parentComponent) {
parentPush('<!--teleport start-->');
const context = parentComponent.appContext.provides[ssrContextKey];
const teleportBuffers = context.__teleportBuffers || (context.__teleportBuffers = {});
const targetBuffer = teleportBuffers[target] || (teleportBuffers[target] = []);
// record current index of the target buffer to handle nested teleports
// since the parent needs to be rendered before the child
const bufferIndex = targetBuffer.length;
let teleportContent;
if (disabled) {
contentRenderFn(parentPush);
teleportContent = `<!--teleport anchor-->`;
}
else {
const { getBuffer, push } = createBuffer();
contentRenderFn(push);
push(`<!--teleport anchor-->`);
teleportContent = getBuffer();
}
targetBuffer.splice(bufferIndex, 0, teleportContent);
parentPush('<!--teleport end-->');
}
const { createComponentInstance: createComponentInstance$1, setCurrentRenderingInstance: setCurrentRenderingInstance$1, setupComponent: setupComponent$1, renderComponentRoot: renderComponentRoot$1, normalizeVNode: normalizeVNode$1 } = ssrUtils;
// Each component has a buffer array.
// A buffer array can contain one of the following:
// - plain string
// - A resolved buffer (recursive arrays of strings that can be unrolled
// synchronously)
// - An async buffer (a Promise that resolves to a resolved buffer)
function createBuffer() {
let appendable = false;
const buffer = [];
return {
getBuffer() {
// Return static buffer and await on items during unroll stage
return buffer;
},
push(item) {
const isStringItem = isString(item);
if (appendable && isStringItem) {
buffer[buffer.length - 1] += item;
}
else {
buffer.push(item);
}
appendable = isStringItem;
if (isPromise(item) || (isArray(item) && item.hasAsync)) {
// promise, or child buffer with async, mark as async.
// this allows skipping unnecessary await ticks during unroll stage
buffer.hasAsync = true;
}
}
};
}
function renderComponentVNode(vnode, parentComponent = null, slotScopeId) {
const instance = createComponentInstance$1(vnode, parentComponent, null);
const res = setupComponent$1(instance, true /* isSSR */);
const hasAsyncSetup = isPromise(res);
const prefetches = instance.sp; /* LifecycleHooks.SERVER_PREFETCH */
if (hasAsyncSetup || prefetches) {
let p = hasAsyncSetup
? res
: Promise.resolve();
if (prefetches) {
p = p
.then(() => Promise.all(prefetches.map(prefetch => prefetch.call(instance.proxy))))
// Note: error display is already done by the wrapped lifecycle hook function.
.catch(() => { });
}
return p.then(() => renderComponentSubTree(instance, slotScopeId));
}
else {
return renderComponentSubTree(instance, slotScopeId);
}
}
function renderComponentSubTree(instance, slotScopeId) {
const comp = instance.type;
const { getBuffer, push } = createBuffer();
if (isFunction(comp)) {
let root = renderComponentRoot$1(instance);
// #5817 scope ID attrs not falling through if functional component doesn't
// have props
if (!comp.props) {
for (const key in instance.attrs) {
if (key.startsWith(`data-v-`)) {
(root.props || (root.props = {}))[key] = ``;
}
}
}
renderVNode(push, (instance.subTree = root), instance, slotScopeId);
}
else {
if ((!instance.render || instance.render === NOOP) &&
!instance.ssrRender &&
!comp.ssrRender &&
isString(comp.template)) {
comp.ssrRender = ssrCompile(comp.template);
}
// perf: enable caching of computed getters during render
// since there cannot be state mutations during render.
for (const e of instance.scope.effects) {
if (e.computed)
e.computed._cacheable = true;
}
const ssrRender = instance.ssrRender || comp.ssrRender;
if (ssrRender) {
// optimized
// resolve fallthrough attrs
let attrs = instance.inheritAttrs !== false ? instance.attrs : undefined;
let hasCloned = false;
let cur = instance;
while (true) {
const scopeId = cur.vnode.scopeId;
if (scopeId) {
if (!hasCloned) {
attrs = { ...attrs };
hasCloned = true;
}
attrs[scopeId] = '';
}
const parent = cur.parent;
if (parent && parent.subTree && parent.subTree === cur.vnode) {
// parent is a non-SSR compiled component and is rendering this
// component as root. inherit its scopeId if present.
cur = parent;
}
else {
break;
}
}
if (slotScopeId) {
if (!hasCloned)
attrs = { ...attrs };
attrs[slotScopeId.trim()] = '';
}
// set current rendering instance for asset resolution
const prev = setCurrentRenderingInstance$1(instance);
ssrRender(instance.proxy, push, instance, attrs,
// compiler-optimized bindings
instance.props, instance.setupState, instance.data, instance.ctx);
setCurrentRenderingInstance$1(prev);
}
else if (instance.render && instance.render !== NOOP) {
renderVNode(push, (instance.subTree = renderComponentRoot$1(instance)), instance, slotScopeId);
}
else {
const componentName = comp.name || comp.__file || `<Anonymous>`;
warn$1(`Component ${componentName} is missing template or render function.`);
push(`<!---->`);
}
}
return getBuffer();
}
function renderVNode(push, vnode, parentComponent, slotScopeId) {
const { type, shapeFlag, children } = vnode;
switch (type) {
case Text:
push(escapeHtml(children));
break;
case Comment:
push(children ? `<!--${escapeHtmlComment(children)}-->` : `<!---->`);
break;
case Static:
push(children);
break;
case Fragment:
if (vnode.slotScopeIds) {
slotScopeId =
(slotScopeId ? slotScopeId + ' ' : '') + vnode.slotScopeIds.join(' ');
}
push(`<!--[-->`); // open
renderVNodeChildren(push, children, parentComponent, slotScopeId);
push(`<!--]-->`); // close
break;
default:
if (shapeFlag & 1 /* ELEMENT */) {
renderElementVNode(push, vnode, parentComponent, slotScopeId);
}
else if (shapeFlag & 6 /* COMPONENT */) {
push(renderComponentVNode(vnode, parentComponent, slotScopeId));
}
else if (shapeFlag & 64 /* TELEPORT */) {
renderTeleportVNode(push, vnode, parentComponent, slotScopeId);
}
else if (shapeFlag & 128 /* SUSPENSE */) {
renderVNode(push, vnode.ssContent, parentComponent, slotScopeId);
}
else {
warn$1('[@vue/server-renderer] Invalid VNode type:', type, `(${typeof type})`);
}
}
}
function renderVNodeChildren(push, children, parentComponent, slotScopeId) {
for (let i = 0; i < children.length; i++) {
renderVNode(push, normalizeVNode$1(children[i]), parentComponent, slotScopeId);
}
}
function renderElementVNode(push, vnode, parentComponent, slotScopeId) {
const tag = vnode.type;
let { props, children, shapeFlag, scopeId, dirs } = vnode;
let openTag = `<${tag}`;
if (dirs) {
props = applySSRDirectives(vnode, props, dirs);
}
if (props) {
openTag += ssrRenderAttrs(props, tag);
}
if (scopeId) {
openTag += ` ${scopeId}`;
}
// inherit parent chain scope id if this is the root node
let curParent = parentComponent;
let curVnode = vnode;
while (curParent && curVnode === curParent.subTree) {
curVnode = curParent.vnode;
if (curVnode.scopeId) {
openTag += ` ${curVnode.scopeId}`;
}
curParent = curParent.parent;
}
if (slotScopeId) {
openTag += ` ${slotScopeId}`;
}
push(openTag + `>`);
if (!isVoidTag(tag)) {
let hasChildrenOverride = false;
if (props) {
if (props.innerHTML) {
hasChildrenOverride = true;
push(props.innerHTML);
}
else if (props.textContent) {
hasChildrenOverride = true;
push(escapeHtml(props.textContent));
}
else if (tag === 'textarea' && props.value) {
hasChildrenOverride = true;
push(escapeHtml(props.value));
}
}
if (!hasChildrenOverride) {
if (shapeFlag & 8 /* TEXT_CHILDREN */) {
push(escapeHtml(children));
}
else if (shapeFlag & 16 /* ARRAY_CHILDREN */) {
renderVNodeChildren(push, children, parentComponent, slotScopeId);
}
}
push(`</${tag}>`);
}
}
function applySSRDirectives(vnode, rawProps, dirs) {
const toMerge = [];
for (let i = 0; i < dirs.length; i++) {
const binding = dirs[i];
const { dir: { getSSRProps } } = binding;
if (getSSRProps) {
const props = getSSRProps(binding, vnode);
if (props)
toMerge.push(props);
}
}
return mergeProps(rawProps || {}, ...toMerge);
}
function renderTeleportVNode(push, vnode, parentComponent, slotScopeId) {
const target = vnode.props && vnode.props.to;
const disabled = vnode.props && vnode.props.disabled;
if (!target) {
if (!disabled) {
warn$1(`[@vue/server-renderer] Teleport is missing target prop.`);
}
return [];
}
if (!isString(target)) {
warn$1(`[@vue/server-renderer] Teleport target must be a query selector string.`);
return [];
}
ssrRenderTeleport(push, push => {
renderVNodeChildren(push, vnode.children, parentComponent, slotScopeId);
}, target, disabled || disabled === '', parentComponent);
}
const { isVNode: isVNode$1 } = ssrUtils;
async function unrollBuffer(buffer) {
if (buffer.hasAsync) {
let ret = '';
for (let i = 0; i < buffer.length; i++) {
let item = buffer[i];
if (isPromise(item)) {
item = await item;
}
if (isString(item)) {
ret += item;
}
else {
ret += await unrollBuffer(item);
}
}
return ret;
}
else {
// sync buffer can be more efficiently unrolled without unnecessary await
// ticks
return unrollBufferSync(buffer);
}
}
function unrollBufferSync(buffer) {
let ret = '';
for (let i = 0; i < buffer.length; i++) {
let item = buffer[i];
if (isString(item)) {
ret += item;
}
else {
// since this is a sync buffer, child buffers are never promises
ret += unrollBufferSync(item);
}
}
return ret;
}
async function renderToString(input, context = {}) {
if (isVNode$1(input)) {
// raw vnode, wrap with app (for context)
return renderToString(createApp({ render: () => input }), context);
}
// rendering an app
const vnode = createVNode(input._component, input._props);
vnode.appContext = input._context;
// provide the ssr context to the tree
input.provide(ssrContextKey, context);
const buffer = await renderComponentVNode(vnode);
const result = await unrollBuffer(buffer);
await resolveTeleports(context);
return result;
}
async function resolveTeleports(context) {
if (context.__teleportBuffers) {
context.teleports = context.teleports || {};
for (const key in context.__teleportBuffers) {
// note: it's OK to await sequentially here because the Promises were
// created eagerly in parallel.
context.teleports[key] = await unrollBuffer((await Promise.all(context.__teleportBuffers[key])));
}
}
}
const { isVNode: isVNode$2 } = ssrUtils;
async function unrollBuffer$1(buffer, stream) {
if (buffer.hasAsync) {
for (let i = 0; i < buffer.length; i++) {
let item = buffer[i];
if (isPromise(item)) {
item = await item;
}
if (isString(item)) {
stream.push(item);
}
else {
await unrollBuffer$1(item, stream);
}
}
}
else {
// sync buffer can be more efficiently unrolled without unnecessary await
// ticks
unrollBufferSync$1(buffer, stream);
}
}
function unrollBufferSync$1(buffer, stream) {
for (let i = 0; i < buffer.length; i++) {
let item = buffer[i];
if (isString(item)) {
stream.push(item);
}
else {
// since this is a sync buffer, child buffers are never promises
unrollBufferSync$1(item, stream);
}
}
}
function renderToSimpleStream(input, context, stream) {
if (isVNode$2(input)) {
// raw vnode, wrap with app (for context)
return renderToSimpleStream(createApp({ render: () => input }), context, stream);
}
// rendering an app
const vnode = createVNode(input._component, input._props);
vnode.appContext = input._context;
// provide the ssr context to the tree
input.provide(ssrContextKey, context);
Promise.resolve(renderComponentVNode(vnode))
.then(buffer => unrollBuffer$1(buffer, stream))
.then(() => resolveTeleports(context))
.then(() => stream.push(null))
.catch(error => {
stream.destroy(error);
});
return stream;
}
/**
* @deprecated
*/
function renderToStream(input, context = {}) {
console.warn(`[@vue/server-renderer] renderToStream is deprecated - use renderToNodeStream instead.`);
return renderToNodeStream(input, context);
}
function renderToNodeStream(input, context = {}) {
const stream = null;
{
throw new Error(`ESM build of renderToStream() does not support renderToNodeStream(). ` +
`Use pipeToNodeWritable() with an existing Node.js Writable stream ` +
`instance instead.`);
}
}
function pipeToNodeWritable(input, context = {}, writable) {
renderToSimpleStream(input, context, {
push(content) {
if (content != null) {
writable.write(content);
}
else {
writable.end();
}
},
destroy(err) {
writable.destroy(err);
}
});
}
function renderToWebStream(input, context = {}) {
if (typeof ReadableStream !== 'function') {
throw new Error(`ReadableStream constructor is not available in the global scope. ` +
`If the target environment does support web streams, consider using ` +
`pipeToWebWritable() with an existing WritableStream instance instead.`);
}
const encoder = new TextEncoder();
let cancelled = false;
return new ReadableStream({
start(controller) {
renderToSimpleStream(input, context, {
push(content) {
if (cancelled)
return;
if (content != null) {
controller.enqueue(encoder.encode(content));
}
else {
controller.close();
}
},
destroy(err) {
controller.error(err);
}
});
},
cancel() {
cancelled = true;
}
});
}
function pipeToWebWritable(input, context = {}, writable) {
const writer = writable.getWriter();
const encoder = new TextEncoder();
// #4287 CloudFlare workers do not implement `ready` property
let hasReady = false;
try {
hasReady = isPromise(writer.ready);
}
catch (e) { }
renderToSimpleStream(input, context, {
async push(content) {
if (hasReady) {
await writer.ready;
}
if (content != null) {
return writer.write(encoder.encode(content));
}
else {
return writer.close();
}
},
destroy(err) {
// TODO better error handling?
console.log(err);
writer.close();
}
});
}
function ssrRenderComponent(comp, props = null, children = null, parentComponent = null, slotScopeId) {
return renderComponentVNode(createVNode(comp, props, children), parentComponent, slotScopeId);
}
function ssrRenderSlot(slots, slotName, slotProps, fallbackRenderFn, push, parentComponent, slotScopeId) {
// template-compiled slots are always rendered as fragments
push(`<!--[-->`);
ssrRenderSlotInner(slots, slotName, slotProps, fallbackRenderFn, push, parentComponent, slotScopeId);
push(`<!--]-->`);
}
function ssrRenderSlotInner(slots, slotName, slotProps, fallbackRenderFn, push, parentComponent, slotScopeId, transition) {
const slotFn = slots[slotName];
if (slotFn) {
const slotBuffer = [];
const bufferedPush = (item) => {
slotBuffer.push(item);
};
const ret = slotFn(slotProps, bufferedPush, parentComponent, slotScopeId ? ' ' + slotScopeId : '');
if (isArray(ret)) {
// normal slot
renderVNodeChildren(push, ret, parentComponent, slotScopeId);
}
else {
// ssr slot.
// check if the slot renders all comments, in which case use the fallback
let isEmptySlot = true;
if (transition) {
isEmptySlot = false;
}
else {
for (let i = 0; i < slotBuffer.length; i++) {
if (!isComment(slotBuffer[i])) {
isEmptySlot = false;
break;
}
}
}
if (isEmptySlot) {
if (fallbackRenderFn) {
fallbackRenderFn();
}
}
else {
for (let i = 0; i < slotBuffer.length; i++) {
push(slotBuffer[i]);
}
}
}
}
else if (fallbackRenderFn) {
fallbackRenderFn();
}
}
const commentRE = /<!--[^]*?-->/gm;
function isComment(item) {
return (typeof item === 'string' &&
commentRE.test(item) &&
!item.replace(commentRE, '').trim());
}
function ssrInterpolate(value) {
return escapeHtml(toDisplayString(value));
}
function ssrRenderList(source, renderItem) {
if (isArray(source) || isString(source)) {
for (let i = 0, l = source.length; i < l; i++) {
renderItem(source[i], i);
}
}
else if (typeof source === 'number') {
if (!Number.isInteger(source)) {
warn$1(`The v-for range expect an integer value but got ${source}.`);
return;
}
for (let i = 0; i < source; i++) {
renderItem(i + 1, i);
}
}
else if (isObject(source)) {
if (source[Symbol.iterator]) {
const arr = Array.from(source);
for (let i = 0, l = arr.length; i < l; i++) {
renderItem(arr[i], i);
}
}
else {
const keys = Object.keys(source);
for (let i = 0, l = keys.length; i < l; i++) {
const key = keys[i];
renderItem(source[key], key, i);
}
}
}
}
async function ssrRenderSuspense(push, { default: renderContent }) {
if (renderContent) {
renderContent();
}
else {
push(`<!---->`);
}
}
function ssrGetDirectiveProps(instance, dir, value, arg, modifiers = {}) {
if (typeof dir !== 'function' && dir.getSSRProps) {
return (dir.getSSRProps({
dir,
instance,
value,
oldValue: undefined,
arg,
modifiers
}, null) || {});
}
return {};
}
const ssrLooseEqual = looseEqual;
function ssrLooseContain(arr, value) {
return looseIndexOf(arr, value) > -1;
}
// for <input :type="type" v-model="model" value="value">
function ssrRenderDynamicModel(type, model, value) {
switch (type) {
case 'radio':
return looseEqual(model, value) ? ' checked' : '';
case 'checkbox':
return (isArray(model) ? ssrLooseContain(model, value) : model)
? ' checked'
: '';
default:
// text types
return ssrRenderAttr('value', model);
}
}
// for <input v-bind="obj" v-model="model">
function ssrGetDynamicModelProps(existingProps = {}, model) {
const { type, value } = existingProps;
switch (type) {
case 'radio':
return looseEqual(model, value) ? { checked: true } : null;
case 'checkbox':
return (isArray(model) ? ssrLooseContain(model, value) : model)
? { checked: true }
: null;
default:
// text types
return { value: model };
}
}
export { pipeToNodeWritable, pipeToWebWritable, renderToNodeStream, renderToSimpleStream, renderToStream, renderToString, renderToWebStream, ssrGetDirectiveProps, ssrGetDynamicModelProps, includeBooleanAttr as ssrIncludeBooleanAttr, ssrInterpolate, ssrLooseContain, ssrLooseEqual, ssrRenderAttr, ssrRenderAttrs, ssrRenderClass, ssrRenderComponent, ssrRenderDynamicAttr, ssrRenderDynamicModel, ssrRenderList, ssrRenderSlot, ssrRenderSlotInner, ssrRenderStyle, ssrRenderSuspense, ssrRenderTeleport, renderVNode as ssrRenderVNode };