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package.dist.runtime-dom.esm-browser.js Maven / Gradle / Ivy
/**
* @vue/runtime-dom v3.5.10
* (c) 2018-present Yuxi (Evan) You and Vue contributors
* @license MIT
**/
/*! #__NO_SIDE_EFFECTS__ */
// @__NO_SIDE_EFFECTS__
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const isModelListener = (key) => key.startsWith("onUpdate:");
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};
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fns[i](...arg);
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};
const def = (obj, key, value, writable = false) => {
Object.defineProperty(obj, key, {
configurable: true,
enumerable: false,
writable,
value
});
};
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};
const toNumber = (val) => {
const n = isString(val) ? Number(val) : NaN;
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 : {});
};
const GLOBALS_ALLOWED = "Infinity,undefined,NaN,isFinite,isNaN,parseFloat,parseInt,decodeURI,decodeURIComponent,encodeURI,encodeURIComponent,Math,Number,Date,Array,Object,Boolean,String,RegExp,Map,Set,JSON,Intl,BigInt,console,Error,Symbol";
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function normalizeStyle(value) {
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if (normalized) {
for (const key in normalized) {
res[key] = normalized[key];
}
}
}
return res;
} else if (isString(value) || isObject(value)) {
return value;
}
}
const listDelimiterRE = /;(?![^(]*\))/g;
const propertyDelimiterRE = /:([^]+)/;
const styleCommentRE = /\/\*[^]*?\*\//g;
function parseStringStyle(cssText) {
const ret = {};
cssText.replace(styleCommentRE, "").split(listDelimiterRE).forEach((item) => {
if (item) {
const tmp = item.split(propertyDelimiterRE);
tmp.length > 1 && (ret[tmp[0].trim()] = tmp[1].trim());
}
});
return ret;
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function stringifyStyle(styles) {
let ret = "";
if (!styles || isString(styles)) {
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}
for (const key in styles) {
const value = styles[key];
if (isString(value) || typeof value === "number") {
const normalizedKey = key.startsWith(`--`) ? key : hyphenate(key);
ret += `${normalizedKey}:${value};`;
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}
return ret;
}
function normalizeClass(value) {
let res = "";
if (isString(value)) {
res = value;
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function normalizeProps(props) {
if (!props) return null;
let { class: klass, style } = props;
if (klass && !isString(klass)) {
props.class = normalizeClass(klass);
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if (style) {
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const HTML_TAGS = "html,body,base,head,link,meta,style,title,address,article,aside,footer,header,hgroup,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";
const SVG_TAGS = "svg,animate,animateMotion,animateTransform,circle,clipPath,color-profile,defs,desc,discard,ellipse,feBlend,feColorMatrix,feComponentTransfer,feComposite,feConvolveMatrix,feDiffuseLighting,feDisplacementMap,feDistantLight,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 MATH_TAGS = "annotation,annotation-xml,maction,maligngroup,malignmark,math,menclose,merror,mfenced,mfrac,mfraction,mglyph,mi,mlabeledtr,mlongdiv,mmultiscripts,mn,mo,mover,mpadded,mphantom,mprescripts,mroot,mrow,ms,mscarries,mscarry,msgroup,msline,mspace,msqrt,msrow,mstack,mstyle,msub,msubsup,msup,mtable,mtd,mtext,mtr,munder,munderover,none,semantics";
const isHTMLTag = /* @__PURE__ */ makeMap(HTML_TAGS);
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specialBooleanAttrs + `,async,autofocus,autoplay,controls,default,defer,disabled,hidden,inert,loop,open,required,reversed,scoped,seamless,checked,muted,multiple,selected`
);
function includeBooleanAttr(value) {
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);
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);
function isRenderableAttrValue(value) {
if (value == null) {
return false;
}
const type = typeof value;
return type === "string" || type === "number" || type === "boolean";
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const cssVarNameEscapeSymbolsRE = /[ !"#$%&'()*+,./:;<=>?@[\\\]^`{|}~]/g;
function getEscapedCssVarName(key, doubleEscape) {
return key.replace(
cssVarNameEscapeSymbolsRE,
(s) => `\\${s}`
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}
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) {
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));
}
const isRef$1 = (val) => {
return !!(val && val["__v_isRef"] === true);
};
const toDisplayString = (val) => {
return isString(val) ? val : val == null ? "" : isArray(val) || isObject(val) && (val.toString === objectToString || !isFunction(val.toString)) ? isRef$1(val) ? toDisplayString(val.value) : JSON.stringify(val, replacer, 2) : String(val);
};
const replacer = (_key, val) => {
if (isRef$1(val)) {
return replacer(_key, val.value);
} else if (isMap(val)) {
return {
[`Map(${val.size})`]: [...val.entries()].reduce(
(entries, [key, val2], i) => {
entries[stringifySymbol(key, i) + " =>"] = val2;
return entries;
},
{}
)
};
} else if (isSet(val)) {
return {
[`Set(${val.size})`]: [...val.values()].map((v) => stringifySymbol(v))
};
} else if (isSymbol(val)) {
return stringifySymbol(val);
} else if (isObject(val) && !isArray(val) && !isPlainObject(val)) {
return String(val);
}
return val;
};
const stringifySymbol = (v, i = "") => {
var _a;
return (
// Symbol.description in es2019+ so we need to cast here to pass
// the lib: es2016 check
isSymbol(v) ? `Symbol(${(_a = v.description) != null ? _a : i})` : v
);
};
function warn$2(msg, ...args) {
console.warn(`[Vue warn] ${msg}`, ...args);
}
let activeEffectScope;
class EffectScope {
constructor(detached = false) {
this.detached = detached;
/**
* @internal
*/
this._active = true;
/**
* @internal
*/
this.effects = [];
/**
* @internal
*/
this.cleanups = [];
this._isPaused = false;
this.parent = activeEffectScope;
if (!detached && activeEffectScope) {
this.index = (activeEffectScope.scopes || (activeEffectScope.scopes = [])).push(
this
) - 1;
}
}
get active() {
return this._active;
}
pause() {
if (this._active) {
this._isPaused = true;
let i, l;
if (this.scopes) {
for (i = 0, l = this.scopes.length; i < l; i++) {
this.scopes[i].pause();
}
}
for (i = 0, l = this.effects.length; i < l; i++) {
this.effects[i].pause();
}
}
}
/**
* Resumes the effect scope, including all child scopes and effects.
*/
resume() {
if (this._active) {
if (this._isPaused) {
this._isPaused = false;
let i, l;
if (this.scopes) {
for (i = 0, l = this.scopes.length; i < l; i++) {
this.scopes[i].resume();
}
}
for (i = 0, l = this.effects.length; i < l; i++) {
this.effects[i].resume();
}
}
}
}
run(fn) {
if (this._active) {
const currentEffectScope = activeEffectScope;
try {
activeEffectScope = this;
return fn();
} finally {
activeEffectScope = currentEffectScope;
}
} else {
warn$2(`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);
}
}
if (!this.detached && this.parent && !fromParent) {
const last = this.parent.scopes.pop();
if (last && last !== this) {
this.parent.scopes[this.index] = last;
last.index = this.index;
}
}
this.parent = void 0;
this._active = false;
}
}
}
function effectScope(detached) {
return new EffectScope(detached);
}
function getCurrentScope() {
return activeEffectScope;
}
function onScopeDispose(fn, failSilently = false) {
if (activeEffectScope) {
activeEffectScope.cleanups.push(fn);
} else if (!failSilently) {
warn$2(
`onScopeDispose() is called when there is no active effect scope to be associated with.`
);
}
}
let activeSub;
const pausedQueueEffects = /* @__PURE__ */ new WeakSet();
class ReactiveEffect {
constructor(fn) {
this.fn = fn;
/**
* @internal
*/
this.deps = void 0;
/**
* @internal
*/
this.depsTail = void 0;
/**
* @internal
*/
this.flags = 1 | 4;
/**
* @internal
*/
this.next = void 0;
/**
* @internal
*/
this.cleanup = void 0;
this.scheduler = void 0;
if (activeEffectScope && activeEffectScope.active) {
activeEffectScope.effects.push(this);
}
}
pause() {
this.flags |= 64;
}
resume() {
if (this.flags & 64) {
this.flags &= ~64;
if (pausedQueueEffects.has(this)) {
pausedQueueEffects.delete(this);
this.trigger();
}
}
}
/**
* @internal
*/
notify() {
if (this.flags & 2 && !(this.flags & 32)) {
return;
}
if (!(this.flags & 8)) {
batch(this);
}
}
run() {
if (!(this.flags & 1)) {
return this.fn();
}
this.flags |= 2;
cleanupEffect(this);
prepareDeps(this);
const prevEffect = activeSub;
const prevShouldTrack = shouldTrack;
activeSub = this;
shouldTrack = true;
try {
return this.fn();
} finally {
if (activeSub !== this) {
warn$2(
"Active effect was not restored correctly - this is likely a Vue internal bug."
);
}
cleanupDeps(this);
activeSub = prevEffect;
shouldTrack = prevShouldTrack;
this.flags &= ~2;
}
}
stop() {
if (this.flags & 1) {
for (let link = this.deps; link; link = link.nextDep) {
removeSub(link);
}
this.deps = this.depsTail = void 0;
cleanupEffect(this);
this.onStop && this.onStop();
this.flags &= ~1;
}
}
trigger() {
if (this.flags & 64) {
pausedQueueEffects.add(this);
} else if (this.scheduler) {
this.scheduler();
} else {
this.runIfDirty();
}
}
/**
* @internal
*/
runIfDirty() {
if (isDirty(this)) {
this.run();
}
}
get dirty() {
return isDirty(this);
}
}
let batchDepth = 0;
let batchedSub;
function batch(sub) {
sub.flags |= 8;
sub.next = batchedSub;
batchedSub = sub;
}
function startBatch() {
batchDepth++;
}
function endBatch() {
if (--batchDepth > 0) {
return;
}
let error;
while (batchedSub) {
let e = batchedSub;
let next;
while (e) {
if (!(e.flags & 1)) {
e.flags &= ~8;
}
e = e.next;
}
e = batchedSub;
batchedSub = void 0;
while (e) {
next = e.next;
e.next = void 0;
e.flags &= ~8;
if (e.flags & 1) {
try {
;
e.trigger();
} catch (err) {
if (!error) error = err;
}
}
e = next;
}
}
if (error) throw error;
}
function prepareDeps(sub) {
for (let link = sub.deps; link; link = link.nextDep) {
link.version = -1;
link.prevActiveLink = link.dep.activeLink;
link.dep.activeLink = link;
}
}
function cleanupDeps(sub) {
let head;
let tail = sub.depsTail;
let link = tail;
while (link) {
const prev = link.prevDep;
if (link.version === -1) {
if (link === tail) tail = prev;
removeSub(link);
removeDep(link);
} else {
head = link;
}
link.dep.activeLink = link.prevActiveLink;
link.prevActiveLink = void 0;
link = prev;
}
sub.deps = head;
sub.depsTail = tail;
}
function isDirty(sub) {
for (let link = sub.deps; link; link = link.nextDep) {
if (link.dep.version !== link.version || link.dep.computed && (refreshComputed(link.dep.computed) || link.dep.version !== link.version)) {
return true;
}
}
if (sub._dirty) {
return true;
}
return false;
}
function refreshComputed(computed) {
if (computed.flags & 4 && !(computed.flags & 16)) {
return;
}
computed.flags &= ~16;
if (computed.globalVersion === globalVersion) {
return;
}
computed.globalVersion = globalVersion;
const dep = computed.dep;
computed.flags |= 2;
if (dep.version > 0 && !computed.isSSR && computed.deps && !isDirty(computed)) {
computed.flags &= ~2;
return;
}
const prevSub = activeSub;
const prevShouldTrack = shouldTrack;
activeSub = computed;
shouldTrack = true;
try {
prepareDeps(computed);
const value = computed.fn(computed._value);
if (dep.version === 0 || hasChanged(value, computed._value)) {
computed._value = value;
dep.version++;
}
} catch (err) {
dep.version++;
throw err;
} finally {
activeSub = prevSub;
shouldTrack = prevShouldTrack;
cleanupDeps(computed);
computed.flags &= ~2;
}
}
function removeSub(link, soft = false) {
const { dep, prevSub, nextSub } = link;
if (prevSub) {
prevSub.nextSub = nextSub;
link.prevSub = void 0;
}
if (nextSub) {
nextSub.prevSub = prevSub;
link.nextSub = void 0;
}
if (dep.subs === link) {
dep.subs = prevSub;
}
if (dep.subsHead === link) {
dep.subsHead = nextSub;
}
if (!dep.subs && dep.computed) {
dep.computed.flags &= ~4;
for (let l = dep.computed.deps; l; l = l.nextDep) {
removeSub(l, true);
}
}
if (!soft && !--dep.sc && dep.map) {
dep.map.delete(dep.key);
}
}
function removeDep(link) {
const { prevDep, nextDep } = link;
if (prevDep) {
prevDep.nextDep = nextDep;
link.prevDep = void 0;
}
if (nextDep) {
nextDep.prevDep = prevDep;
link.nextDep = void 0;
}
}
function effect(fn, options) {
if (fn.effect instanceof ReactiveEffect) {
fn = fn.effect.fn;
}
const e = new ReactiveEffect(fn);
if (options) {
extend(e, options);
}
try {
e.run();
} catch (err) {
e.stop();
throw err;
}
const runner = e.run.bind(e);
runner.effect = e;
return runner;
}
function stop(runner) {
runner.effect.stop();
}
let shouldTrack = true;
const trackStack = [];
function pauseTracking() {
trackStack.push(shouldTrack);
shouldTrack = false;
}
function resetTracking() {
const last = trackStack.pop();
shouldTrack = last === void 0 ? true : last;
}
function cleanupEffect(e) {
const { cleanup } = e;
e.cleanup = void 0;
if (cleanup) {
const prevSub = activeSub;
activeSub = void 0;
try {
cleanup();
} finally {
activeSub = prevSub;
}
}
}
let globalVersion = 0;
class Link {
constructor(sub, dep) {
this.sub = sub;
this.dep = dep;
this.version = dep.version;
this.nextDep = this.prevDep = this.nextSub = this.prevSub = this.prevActiveLink = void 0;
}
}
class Dep {
constructor(computed) {
this.computed = computed;
this.version = 0;
/**
* Link between this dep and the current active effect
*/
this.activeLink = void 0;
/**
* Doubly linked list representing the subscribing effects (tail)
*/
this.subs = void 0;
/**
* For object property deps cleanup
*/
this.target = void 0;
this.map = void 0;
this.key = void 0;
/**
* Subscriber counter
*/
this.sc = 0;
{
this.subsHead = void 0;
}
}
track(debugInfo) {
if (!activeSub || !shouldTrack || activeSub === this.computed) {
return;
}
let link = this.activeLink;
if (link === void 0 || link.sub !== activeSub) {
link = this.activeLink = new Link(activeSub, this);
if (!activeSub.deps) {
activeSub.deps = activeSub.depsTail = link;
} else {
link.prevDep = activeSub.depsTail;
activeSub.depsTail.nextDep = link;
activeSub.depsTail = link;
}
addSub(link);
} else if (link.version === -1) {
link.version = this.version;
if (link.nextDep) {
const next = link.nextDep;
next.prevDep = link.prevDep;
if (link.prevDep) {
link.prevDep.nextDep = next;
}
link.prevDep = activeSub.depsTail;
link.nextDep = void 0;
activeSub.depsTail.nextDep = link;
activeSub.depsTail = link;
if (activeSub.deps === link) {
activeSub.deps = next;
}
}
}
if (activeSub.onTrack) {
activeSub.onTrack(
extend(
{
effect: activeSub
},
debugInfo
)
);
}
return link;
}
trigger(debugInfo) {
this.version++;
globalVersion++;
this.notify(debugInfo);
}
notify(debugInfo) {
startBatch();
try {
if (true) {
for (let head = this.subsHead; head; head = head.nextSub) {
if (head.sub.onTrigger && !(head.sub.flags & 8)) {
head.sub.onTrigger(
extend(
{
effect: head.sub
},
debugInfo
)
);
}
}
}
for (let link = this.subs; link; link = link.prevSub) {
if (link.sub.notify()) {
;
link.sub.dep.notify();
}
}
} finally {
endBatch();
}
}
}
function addSub(link) {
link.dep.sc++;
if (link.sub.flags & 4) {
const computed = link.dep.computed;
if (computed && !link.dep.subs) {
computed.flags |= 4 | 16;
for (let l = computed.deps; l; l = l.nextDep) {
addSub(l);
}
}
const currentTail = link.dep.subs;
if (currentTail !== link) {
link.prevSub = currentTail;
if (currentTail) currentTail.nextSub = link;
}
if (link.dep.subsHead === void 0) {
link.dep.subsHead = link;
}
link.dep.subs = link;
}
}
const targetMap = /* @__PURE__ */ new WeakMap();
const ITERATE_KEY = Symbol(
"Object iterate"
);
const MAP_KEY_ITERATE_KEY = Symbol(
"Map keys iterate"
);
const ARRAY_ITERATE_KEY = Symbol(
"Array iterate"
);
function track(target, type, key) {
if (shouldTrack && activeSub) {
let depsMap = targetMap.get(target);
if (!depsMap) {
targetMap.set(target, depsMap = /* @__PURE__ */ new Map());
}
let dep = depsMap.get(key);
if (!dep) {
depsMap.set(key, dep = new Dep());
dep.target = target;
dep.map = depsMap;
dep.key = key;
}
{
dep.track({
target,
type,
key
});
}
}
}
function trigger(target, type, key, newValue, oldValue, oldTarget) {
const depsMap = targetMap.get(target);
if (!depsMap) {
globalVersion++;
return;
}
const run = (dep) => {
if (dep) {
{
dep.trigger({
target,
type,
key,
newValue,
oldValue,
oldTarget
});
}
}
};
startBatch();
if (type === "clear") {
depsMap.forEach(run);
} else {
const targetIsArray = isArray(target);
const isArrayIndex = targetIsArray && isIntegerKey(key);
if (targetIsArray && key === "length") {
const newLength = Number(newValue);
depsMap.forEach((dep, key2) => {
if (key2 === "length" || key2 === ARRAY_ITERATE_KEY || !isSymbol(key2) && key2 >= newLength) {
run(dep);
}
});
} else {
if (key !== void 0) {
run(depsMap.get(key));
}
if (isArrayIndex) {
run(depsMap.get(ARRAY_ITERATE_KEY));
}
switch (type) {
case "add":
if (!targetIsArray) {
run(depsMap.get(ITERATE_KEY));
if (isMap(target)) {
run(depsMap.get(MAP_KEY_ITERATE_KEY));
}
} else if (isArrayIndex) {
run(depsMap.get("length"));
}
break;
case "delete":
if (!targetIsArray) {
run(depsMap.get(ITERATE_KEY));
if (isMap(target)) {
run(depsMap.get(MAP_KEY_ITERATE_KEY));
}
}
break;
case "set":
if (isMap(target)) {
run(depsMap.get(ITERATE_KEY));
}
break;
}
}
}
endBatch();
}
function getDepFromReactive(object, key) {
const depMap = targetMap.get(object);
return depMap && depMap.get(key);
}
function reactiveReadArray(array) {
const raw = toRaw(array);
if (raw === array) return raw;
track(raw, "iterate", ARRAY_ITERATE_KEY);
return isShallow(array) ? raw : raw.map(toReactive);
}
function shallowReadArray(arr) {
track(arr = toRaw(arr), "iterate", ARRAY_ITERATE_KEY);
return arr;
}
const arrayInstrumentations = {
__proto__: null,
[Symbol.iterator]() {
return iterator(this, Symbol.iterator, toReactive);
},
concat(...args) {
return reactiveReadArray(this).concat(
...args.map((x) => isArray(x) ? reactiveReadArray(x) : x)
);
},
entries() {
return iterator(this, "entries", (value) => {
value[1] = toReactive(value[1]);
return value;
});
},
every(fn, thisArg) {
return apply(this, "every", fn, thisArg, void 0, arguments);
},
filter(fn, thisArg) {
return apply(this, "filter", fn, thisArg, (v) => v.map(toReactive), arguments);
},
find(fn, thisArg) {
return apply(this, "find", fn, thisArg, toReactive, arguments);
},
findIndex(fn, thisArg) {
return apply(this, "findIndex", fn, thisArg, void 0, arguments);
},
findLast(fn, thisArg) {
return apply(this, "findLast", fn, thisArg, toReactive, arguments);
},
findLastIndex(fn, thisArg) {
return apply(this, "findLastIndex", fn, thisArg, void 0, arguments);
},
// flat, flatMap could benefit from ARRAY_ITERATE but are not straight-forward to implement
forEach(fn, thisArg) {
return apply(this, "forEach", fn, thisArg, void 0, arguments);
},
includes(...args) {
return searchProxy(this, "includes", args);
},
indexOf(...args) {
return searchProxy(this, "indexOf", args);
},
join(separator) {
return reactiveReadArray(this).join(separator);
},
// keys() iterator only reads `length`, no optimisation required
lastIndexOf(...args) {
return searchProxy(this, "lastIndexOf", args);
},
map(fn, thisArg) {
return apply(this, "map", fn, thisArg, void 0, arguments);
},
pop() {
return noTracking(this, "pop");
},
push(...args) {
return noTracking(this, "push", args);
},
reduce(fn, ...args) {
return reduce(this, "reduce", fn, args);
},
reduceRight(fn, ...args) {
return reduce(this, "reduceRight", fn, args);
},
shift() {
return noTracking(this, "shift");
},
// slice could use ARRAY_ITERATE but also seems to beg for range tracking
some(fn, thisArg) {
return apply(this, "some", fn, thisArg, void 0, arguments);
},
splice(...args) {
return noTracking(this, "splice", args);
},
toReversed() {
return reactiveReadArray(this).toReversed();
},
toSorted(comparer) {
return reactiveReadArray(this).toSorted(comparer);
},
toSpliced(...args) {
return reactiveReadArray(this).toSpliced(...args);
},
unshift(...args) {
return noTracking(this, "unshift", args);
},
values() {
return iterator(this, "values", toReactive);
}
};
function iterator(self, method, wrapValue) {
const arr = shallowReadArray(self);
const iter = arr[method]();
if (arr !== self && !isShallow(self)) {
iter._next = iter.next;
iter.next = () => {
const result = iter._next();
if (result.value) {
result.value = wrapValue(result.value);
}
return result;
};
}
return iter;
}
const arrayProto = Array.prototype;
function apply(self, method, fn, thisArg, wrappedRetFn, args) {
const arr = shallowReadArray(self);
const needsWrap = arr !== self && !isShallow(self);
const methodFn = arr[method];
if (methodFn !== arrayProto[method]) {
const result2 = methodFn.apply(self, args);
return needsWrap ? toReactive(result2) : result2;
}
let wrappedFn = fn;
if (arr !== self) {
if (needsWrap) {
wrappedFn = function(item, index) {
return fn.call(this, toReactive(item), index, self);
};
} else if (fn.length > 2) {
wrappedFn = function(item, index) {
return fn.call(this, item, index, self);
};
}
}
const result = methodFn.call(arr, wrappedFn, thisArg);
return needsWrap && wrappedRetFn ? wrappedRetFn(result) : result;
}
function reduce(self, method, fn, args) {
const arr = shallowReadArray(self);
let wrappedFn = fn;
if (arr !== self) {
if (!isShallow(self)) {
wrappedFn = function(acc, item, index) {
return fn.call(this, acc, toReactive(item), index, self);
};
} else if (fn.length > 3) {
wrappedFn = function(acc, item, index) {
return fn.call(this, acc, item, index, self);
};
}
}
return arr[method](wrappedFn, ...args);
}
function searchProxy(self, method, args) {
const arr = toRaw(self);
track(arr, "iterate", ARRAY_ITERATE_KEY);
const res = arr[method](...args);
if ((res === -1 || res === false) && isProxy(args[0])) {
args[0] = toRaw(args[0]);
return arr[method](...args);
}
return res;
}
function noTracking(self, method, args = []) {
pauseTracking();
startBatch();
const res = toRaw(self)[method].apply(self, args);
endBatch();
resetTracking();
return res;
}
const isNonTrackableKeys = /* @__PURE__ */ makeMap(`__proto__,__v_isRef,__isVue`);
const builtInSymbols = new Set(
/* @__PURE__ */ Object.getOwnPropertyNames(Symbol).filter((key) => key !== "arguments" && key !== "caller").map((key) => Symbol[key]).filter(isSymbol)
);
function hasOwnProperty(key) {
if (!isSymbol(key)) key = String(key);
const obj = toRaw(this);
track(obj, "has", key);
return obj.hasOwnProperty(key);
}
class BaseReactiveHandler {
constructor(_isReadonly = false, _isShallow = false) {
this._isReadonly = _isReadonly;
this._isShallow = _isShallow;
}
get(target, key, receiver) {
const isReadonly2 = this._isReadonly, isShallow2 = this._isShallow;
if (key === "__v_isReactive") {
return !isReadonly2;
} else if (key === "__v_isReadonly") {
return isReadonly2;
} else if (key === "__v_isShallow") {
return isShallow2;
} else if (key === "__v_raw") {
if (receiver === (isReadonly2 ? isShallow2 ? shallowReadonlyMap : readonlyMap : isShallow2 ? shallowReactiveMap : reactiveMap).get(target) || // receiver is not the reactive proxy, but has the same prototype
// this means the receiver is a user proxy of the reactive proxy
Object.getPrototypeOf(target) === Object.getPrototypeOf(receiver)) {
return target;
}
return;
}
const targetIsArray = isArray(target);
if (!isReadonly2) {
let fn;
if (targetIsArray && (fn = arrayInstrumentations[key])) {
return fn;
}
if (key === "hasOwnProperty") {
return hasOwnProperty;
}
}
const res = Reflect.get(
target,
key,
// if this is a proxy wrapping a ref, return methods using the raw ref
// as receiver so that we don't have to call `toRaw` on the ref in all
// its class methods
isRef(target) ? target : receiver
);
if (isSymbol(key) ? builtInSymbols.has(key) : isNonTrackableKeys(key)) {
return res;
}
if (!isReadonly2) {
track(target, "get", key);
}
if (isShallow2) {
return res;
}
if (isRef(res)) {
return targetIsArray && isIntegerKey(key) ? res : res.value;
}
if (isObject(res)) {
return isReadonly2 ? readonly(res) : reactive(res);
}
return res;
}
}
class MutableReactiveHandler extends BaseReactiveHandler {
constructor(isShallow2 = false) {
super(false, isShallow2);
}
set(target, key, value, receiver) {
let oldValue = target[key];
if (!this._isShallow) {
const isOldValueReadonly = isReadonly(oldValue);
if (!isShallow(value) && !isReadonly(value)) {
oldValue = toRaw(oldValue);
value = toRaw(value);
}
if (!isArray(target) && isRef(oldValue) && !isRef(value)) {
if (isOldValueReadonly) {
return false;
} else {
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,
isRef(target) ? target : receiver
);
if (target === toRaw(receiver)) {
if (!hadKey) {
trigger(target, "add", key, value);
} else if (hasChanged(value, oldValue)) {
trigger(target, "set", key, value, oldValue);
}
}
return result;
}
deleteProperty(target, key) {
const hadKey = hasOwn(target, key);
const oldValue = target[key];
const result = Reflect.deleteProperty(target, key);
if (result && hadKey) {
trigger(target, "delete", key, void 0, oldValue);
}
return result;
}
has(target, key) {
const result = Reflect.has(target, key);
if (!isSymbol(key) || !builtInSymbols.has(key)) {
track(target, "has", key);
}
return result;
}
ownKeys(target) {
track(
target,
"iterate",
isArray(target) ? "length" : ITERATE_KEY
);
return Reflect.ownKeys(target);
}
}
class ReadonlyReactiveHandler extends BaseReactiveHandler {
constructor(isShallow2 = false) {
super(true, isShallow2);
}
set(target, key) {
{
warn$2(
`Set operation on key "${String(key)}" failed: target is readonly.`,
target
);
}
return true;
}
deleteProperty(target, key) {
{
warn$2(
`Delete operation on key "${String(key)}" failed: target is readonly.`,
target
);
}
return true;
}
}
const mutableHandlers = /* @__PURE__ */ new MutableReactiveHandler();
const readonlyHandlers = /* @__PURE__ */ new ReadonlyReactiveHandler();
const shallowReactiveHandlers = /* @__PURE__ */ new MutableReactiveHandler(true);
const shallowReadonlyHandlers = /* @__PURE__ */ new ReadonlyReactiveHandler(true);
const toShallow = (value) => value;
const getProto = (v) => Reflect.getPrototypeOf(v);
function get(target, key, isReadonly2 = false, isShallow2 = false) {
target = target["__v_raw"];
const rawTarget = toRaw(target);
const rawKey = toRaw(key);
if (!isReadonly2) {
if (hasChanged(key, rawKey)) {
track(rawTarget, "get", key);
}
track(rawTarget, "get", rawKey);
}
const { has: has2 } = getProto(rawTarget);
const wrap = isShallow2 ? toShallow : isReadonly2 ? toReadonly : toReactive;
if (has2.call(rawTarget, key)) {
return wrap(target.get(key));
} else if (has2.call(rawTarget, rawKey)) {
return wrap(target.get(rawKey));
} else if (target !== rawTarget) {
target.get(key);
}
}
function has(key, isReadonly2 = false) {
const target = this["__v_raw"];
const rawTarget = toRaw(target);
const rawKey = toRaw(key);
if (!isReadonly2) {
if (hasChanged(key, rawKey)) {
track(rawTarget, "has", key);
}
track(rawTarget, "has", rawKey);
}
return key === rawKey ? target.has(key) : target.has(key) || target.has(rawKey);
}
function size(target, isReadonly2 = false) {
target = target["__v_raw"];
!isReadonly2 && track(toRaw(target), "iterate", ITERATE_KEY);
return Reflect.get(target, "size", target);
}
function add(value, _isShallow = false) {
if (!_isShallow && !isShallow(value) && !isReadonly(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", value, value);
}
return this;
}
function set(key, value, _isShallow = false) {
if (!_isShallow && !isShallow(value) && !isReadonly(value)) {
value = toRaw(value);
}
const target = toRaw(this);
const { has: has2, get: get2 } = getProto(target);
let hadKey = has2.call(target, key);
if (!hadKey) {
key = toRaw(key);
hadKey = has2.call(target, key);
} else {
checkIdentityKeys(target, has2, key);
}
const oldValue = get2.call(target, key);
target.set(key, value);
if (!hadKey) {
trigger(target, "add", key, value);
} else if (hasChanged(value, oldValue)) {
trigger(target, "set", key, value, oldValue);
}
return this;
}
function deleteEntry(key) {
const target = toRaw(this);
const { has: has2, get: get2 } = getProto(target);
let hadKey = has2.call(target, key);
if (!hadKey) {
key = toRaw(key);
hadKey = has2.call(target, key);
} else {
checkIdentityKeys(target, has2, key);
}
const oldValue = get2 ? get2.call(target, key) : void 0;
const result = target.delete(key);
if (hadKey) {
trigger(target, "delete", key, void 0, oldValue);
}
return result;
}
function clear() {
const target = toRaw(this);
const hadItems = target.size !== 0;
const oldTarget = isMap(target) ? new Map(target) : new Set(target) ;
const result = target.clear();
if (hadItems) {
trigger(target, "clear", void 0, void 0, oldTarget);
}
return result;
}
function createForEach(isReadonly2, isShallow2) {
return function forEach(callback, thisArg) {
const observed = this;
const target = observed["__v_raw"];
const rawTarget = toRaw(target);
const wrap = isShallow2 ? toShallow : isReadonly2 ? toReadonly : toReactive;
!isReadonly2 && track(rawTarget, "iterate", ITERATE_KEY);
return target.forEach((value, key) => {
return callback.call(thisArg, wrap(value), wrap(key), observed);
});
};
}
function createIterableMethod(method, isReadonly2, isShallow2) {
return function(...args) {
const target = this["__v_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 = isShallow2 ? toShallow : isReadonly2 ? toReadonly : toReactive;
!isReadonly2 && track(
rawTarget,
"iterate",
isKeyOnly ? MAP_KEY_ITERATE_KEY : ITERATE_KEY
);
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]}" ` : ``;
warn$2(
`${capitalize(type)} operation ${key}failed: target is readonly.`,
toRaw(this)
);
}
return type === "delete" ? false : type === "clear" ? void 0 : this;
};
}
function createInstrumentations() {
const mutableInstrumentations2 = {
get(key) {
return get(this, key);
},
get size() {
return size(this);
},
has,
add,
set,
delete: deleteEntry,
clear,
forEach: createForEach(false, false)
};
const shallowInstrumentations2 = {
get(key) {
return get(this, key, false, true);
},
get size() {
return size(this);
},
has,
add(value) {
return add.call(this, value, true);
},
set(key, value) {
return set.call(this, key, value, true);
},
delete: deleteEntry,
clear,
forEach: createForEach(false, true)
};
const readonlyInstrumentations2 = {
get(key) {
return get(this, key, true);
},
get size() {
return size(this, true);
},
has(key) {
return has.call(this, key, true);
},
add: createReadonlyMethod("add"),
set: createReadonlyMethod("set"),
delete: createReadonlyMethod("delete"),
clear: createReadonlyMethod("clear"),
forEach: createForEach(true, false)
};
const shallowReadonlyInstrumentations2 = {
get(key) {
return get(this, key, true, true);
},
get size() {
return size(this, true);
},
has(key) {
return has.call(this, key, true);
},
add: createReadonlyMethod("add"),
set: createReadonlyMethod("set"),
delete: createReadonlyMethod("delete"),
clear: createReadonlyMethod("clear"),
forEach: createForEach(true, true)
};
const iteratorMethods = [
"keys",
"values",
"entries",
Symbol.iterator
];
iteratorMethods.forEach((method) => {
mutableInstrumentations2[method] = createIterableMethod(method, false, false);
readonlyInstrumentations2[method] = createIterableMethod(method, true, false);
shallowInstrumentations2[method] = createIterableMethod(method, false, true);
shallowReadonlyInstrumentations2[method] = createIterableMethod(
method,
true,
true
);
});
return [
mutableInstrumentations2,
readonlyInstrumentations2,
shallowInstrumentations2,
shallowReadonlyInstrumentations2
];
}
const [
mutableInstrumentations,
readonlyInstrumentations,
shallowInstrumentations,
shallowReadonlyInstrumentations
] = /* @__PURE__ */ createInstrumentations();
function createInstrumentationGetter(isReadonly2, shallow) {
const instrumentations = shallow ? isReadonly2 ? shallowReadonlyInstrumentations : shallowInstrumentations : isReadonly2 ? readonlyInstrumentations : mutableInstrumentations;
return (target, key, receiver) => {
if (key === "__v_isReactive") {
return !isReadonly2;
} else if (key === "__v_isReadonly") {
return isReadonly2;
} else if (key === "__v_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, has2, key) {
const rawKey = toRaw(key);
if (rawKey !== key && has2.call(target, rawKey)) {
const type = toRawType(target);
warn$2(
`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 = /* @__PURE__ */ new WeakMap();
const shallowReactiveMap = /* @__PURE__ */ new WeakMap();
const readonlyMap = /* @__PURE__ */ new WeakMap();
const shallowReadonlyMap = /* @__PURE__ */ 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"] || !Object.isExtensible(value) ? 0 /* INVALID */ : targetTypeMap(toRawType(value));
}
function reactive(target) {
if (isReadonly(target)) {
return target;
}
return createReactiveObject(
target,
false,
mutableHandlers,
mutableCollectionHandlers,
reactiveMap
);
}
function shallowReactive(target) {
return createReactiveObject(
target,
false,
shallowReactiveHandlers,
shallowCollectionHandlers,
shallowReactiveMap
);
}
function readonly(target) {
return createReactiveObject(
target,
true,
readonlyHandlers,
readonlyCollectionHandlers,
readonlyMap
);
}
function shallowReadonly(target) {
return createReactiveObject(
target,
true,
shallowReadonlyHandlers,
shallowReadonlyCollectionHandlers,
shallowReadonlyMap
);
}
function createReactiveObject(target, isReadonly2, baseHandlers, collectionHandlers, proxyMap) {
if (!isObject(target)) {
{
warn$2(
`value cannot be made ${isReadonly2 ? "readonly" : "reactive"}: ${String(
target
)}`
);
}
return target;
}
if (target["__v_raw"] && !(isReadonly2 && target["__v_isReactive"])) {
return target;
}
const existingProxy = proxyMap.get(target);
if (existingProxy) {
return existingProxy;
}
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"]);
}
return !!(value && value["__v_isReactive"]);
}
function isReadonly(value) {
return !!(value && value["__v_isReadonly"]);
}
function isShallow(value) {
return !!(value && value["__v_isShallow"]);
}
function isProxy(value) {
return value ? !!value["__v_raw"] : false;
}
function toRaw(observed) {
const raw = observed && observed["__v_raw"];
return raw ? toRaw(raw) : observed;
}
function markRaw(value) {
if (!hasOwn(value, "__v_skip") && Object.isExtensible(value)) {
def(value, "__v_skip", true);
}
return value;
}
const toReactive = (value) => isObject(value) ? reactive(value) : value;
const toReadonly = (value) => isObject(value) ? readonly(value) : value;
function isRef(r) {
return r ? r["__v_isRef"] === true : false;
}
function ref(value) {
return createRef(value, false);
}
function shallowRef(value) {
return createRef(value, true);
}
function createRef(rawValue, shallow) {
if (isRef(rawValue)) {
return rawValue;
}
return new RefImpl(rawValue, shallow);
}
class RefImpl {
constructor(value, isShallow2) {
this.dep = new Dep();
this["__v_isRef"] = true;
this["__v_isShallow"] = false;
this._rawValue = isShallow2 ? value : toRaw(value);
this._value = isShallow2 ? value : toReactive(value);
this["__v_isShallow"] = isShallow2;
}
get value() {
{
this.dep.track({
target: this,
type: "get",
key: "value"
});
}
return this._value;
}
set value(newValue) {
const oldValue = this._rawValue;
const useDirectValue = this["__v_isShallow"] || isShallow(newValue) || isReadonly(newValue);
newValue = useDirectValue ? newValue : toRaw(newValue);
if (hasChanged(newValue, oldValue)) {
this._rawValue = newValue;
this._value = useDirectValue ? newValue : toReactive(newValue);
{
this.dep.trigger({
target: this,
type: "set",
key: "value",
newValue,
oldValue
});
}
}
}
}
function triggerRef(ref2) {
if (ref2.dep) {
{
ref2.dep.trigger({
target: ref2,
type: "set",
key: "value",
newValue: ref2._value
});
}
}
}
function unref(ref2) {
return isRef(ref2) ? ref2.value : ref2;
}
function toValue(source) {
return isFunction(source) ? source() : unref(source);
}
const shallowUnwrapHandlers = {
get: (target, key, receiver) => key === "__v_raw" ? target : 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 CustomRefImpl {
constructor(factory) {
this["__v_isRef"] = true;
this._value = void 0;
const dep = this.dep = new Dep();
const { get, set } = factory(dep.track.bind(dep), dep.trigger.bind(dep));
this._get = get;
this._set = set;
}
get value() {
return this._value = this._get();
}
set value(newVal) {
this._set(newVal);
}
}
function customRef(factory) {
return new CustomRefImpl(factory);
}
function toRefs(object) {
if (!isProxy(object)) {
warn$2(`toRefs() expects a reactive object but received a plain one.`);
}
const ret = isArray(object) ? new Array(object.length) : {};
for (const key in object) {
ret[key] = propertyToRef(object, key);
}
return ret;
}
class ObjectRefImpl {
constructor(_object, _key, _defaultValue) {
this._object = _object;
this._key = _key;
this._defaultValue = _defaultValue;
this["__v_isRef"] = true;
this._value = void 0;
}
get value() {
const val = this._object[this._key];
return this._value = val === void 0 ? this._defaultValue : val;
}
set value(newVal) {
this._object[this._key] = newVal;
}
get dep() {
return getDepFromReactive(toRaw(this._object), this._key);
}
}
class GetterRefImpl {
constructor(_getter) {
this._getter = _getter;
this["__v_isRef"] = true;
this["__v_isReadonly"] = true;
this._value = void 0;
}
get value() {
return this._value = this._getter();
}
}
function toRef(source, key, defaultValue) {
if (isRef(source)) {
return source;
} else if (isFunction(source)) {
return new GetterRefImpl(source);
} else if (isObject(source) && arguments.length > 1) {
return propertyToRef(source, key, defaultValue);
} else {
return ref(source);
}
}
function propertyToRef(source, key, defaultValue) {
const val = source[key];
return isRef(val) ? val : new ObjectRefImpl(source, key, defaultValue);
}
class ComputedRefImpl {
constructor(fn, setter, isSSR) {
this.fn = fn;
this.setter = setter;
/**
* @internal
*/
this._value = void 0;
/**
* @internal
*/
this.dep = new Dep(this);
/**
* @internal
*/
this.__v_isRef = true;
// TODO isolatedDeclarations "__v_isReadonly"
// A computed is also a subscriber that tracks other deps
/**
* @internal
*/
this.deps = void 0;
/**
* @internal
*/
this.depsTail = void 0;
/**
* @internal
*/
this.flags = 16;
/**
* @internal
*/
this.globalVersion = globalVersion - 1;
/**
* @internal
*/
this.next = void 0;
// for backwards compat
this.effect = this;
this["__v_isReadonly"] = !setter;
this.isSSR = isSSR;
}
/**
* @internal
*/
notify() {
this.flags |= 16;
if (!(this.flags & 8) && // avoid infinite self recursion
activeSub !== this) {
batch(this);
return true;
}
}
get value() {
const link = this.dep.track({
target: this,
type: "get",
key: "value"
}) ;
refreshComputed(this);
if (link) {
link.version = this.dep.version;
}
return this._value;
}
set value(newValue) {
if (this.setter) {
this.setter(newValue);
} else {
warn$2("Write operation failed: computed value is readonly");
}
}
}
function computed$1(getterOrOptions, debugOptions, isSSR = false) {
let getter;
let setter;
if (isFunction(getterOrOptions)) {
getter = getterOrOptions;
} else {
getter = getterOrOptions.get;
setter = getterOrOptions.set;
}
const cRef = new ComputedRefImpl(getter, setter, isSSR);
if (debugOptions && !isSSR) {
cRef.onTrack = debugOptions.onTrack;
cRef.onTrigger = debugOptions.onTrigger;
}
return cRef;
}
const TrackOpTypes = {
"GET": "get",
"HAS": "has",
"ITERATE": "iterate"
};
const TriggerOpTypes = {
"SET": "set",
"ADD": "add",
"DELETE": "delete",
"CLEAR": "clear"
};
const INITIAL_WATCHER_VALUE = {};
const cleanupMap = /* @__PURE__ */ new WeakMap();
let activeWatcher = void 0;
function getCurrentWatcher() {
return activeWatcher;
}
function onWatcherCleanup(cleanupFn, failSilently = false, owner = activeWatcher) {
if (owner) {
let cleanups = cleanupMap.get(owner);
if (!cleanups) cleanupMap.set(owner, cleanups = []);
cleanups.push(cleanupFn);
} else if (!failSilently) {
warn$2(
`onWatcherCleanup() was called when there was no active watcher to associate with.`
);
}
}
function watch$1(source, cb, options = EMPTY_OBJ) {
const { immediate, deep, once, scheduler, augmentJob, call } = options;
const warnInvalidSource = (s) => {
(options.onWarn || warn$2)(
`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 reactiveGetter = (source2) => {
if (deep) return source2;
if (isShallow(source2) || deep === false || deep === 0)
return traverse(source2, 1);
return traverse(source2);
};
let effect;
let getter;
let cleanup;
let boundCleanup;
let forceTrigger = false;
let isMultiSource = false;
if (isRef(source)) {
getter = () => source.value;
forceTrigger = isShallow(source);
} else if (isReactive(source)) {
getter = () => reactiveGetter(source);
forceTrigger = 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 reactiveGetter(s);
} else if (isFunction(s)) {
return call ? call(s, 2) : s();
} else {
warnInvalidSource(s);
}
});
} else if (isFunction(source)) {
if (cb) {
getter = call ? () => call(source, 2) : source;
} else {
getter = () => {
if (cleanup) {
pauseTracking();
try {
cleanup();
} finally {
resetTracking();
}
}
const currentEffect = activeWatcher;
activeWatcher = effect;
try {
return call ? call(source, 3, [boundCleanup]) : source(boundCleanup);
} finally {
activeWatcher = currentEffect;
}
};
}
} else {
getter = NOOP;
warnInvalidSource(source);
}
if (cb && deep) {
const baseGetter = getter;
const depth = deep === true ? Infinity : deep;
getter = () => traverse(baseGetter(), depth);
}
const scope = getCurrentScope();
const watchHandle = () => {
effect.stop();
if (scope) {
remove(scope.effects, effect);
}
};
if (once && cb) {
const _cb = cb;
cb = (...args) => {
_cb(...args);
watchHandle();
};
}
let oldValue = isMultiSource ? new Array(source.length).fill(INITIAL_WATCHER_VALUE) : INITIAL_WATCHER_VALUE;
const job = (immediateFirstRun) => {
if (!(effect.flags & 1) || !effect.dirty && !immediateFirstRun) {
return;
}
if (cb) {
const newValue = effect.run();
if (deep || forceTrigger || (isMultiSource ? newValue.some((v, i) => hasChanged(v, oldValue[i])) : hasChanged(newValue, oldValue))) {
if (cleanup) {
cleanup();
}
const currentWatcher = activeWatcher;
activeWatcher = effect;
try {
const args = [
newValue,
// pass undefined as the old value when it's changed for the first time
oldValue === INITIAL_WATCHER_VALUE ? void 0 : isMultiSource && oldValue[0] === INITIAL_WATCHER_VALUE ? [] : oldValue,
boundCleanup
];
call ? call(cb, 3, args) : (
// @ts-expect-error
cb(...args)
);
oldValue = newValue;
} finally {
activeWatcher = currentWatcher;
}
}
} else {
effect.run();
}
};
if (augmentJob) {
augmentJob(job);
}
effect = new ReactiveEffect(getter);
effect.scheduler = scheduler ? () => scheduler(job, false) : job;
boundCleanup = (fn) => onWatcherCleanup(fn, false, effect);
cleanup = effect.onStop = () => {
const cleanups = cleanupMap.get(effect);
if (cleanups) {
if (call) {
call(cleanups, 4);
} else {
for (const cleanup2 of cleanups) cleanup2();
}
cleanupMap.delete(effect);
}
};
{
effect.onTrack = options.onTrack;
effect.onTrigger = options.onTrigger;
}
if (cb) {
if (immediate) {
job(true);
} else {
oldValue = effect.run();
}
} else if (scheduler) {
scheduler(job.bind(null, true), true);
} else {
effect.run();
}
watchHandle.pause = effect.pause.bind(effect);
watchHandle.resume = effect.resume.bind(effect);
watchHandle.stop = watchHandle;
return watchHandle;
}
function traverse(value, depth = Infinity, seen) {
if (depth <= 0 || !isObject(value) || value["__v_skip"]) {
return value;
}
seen = seen || /* @__PURE__ */ new Set();
if (seen.has(value)) {
return value;
}
seen.add(value);
depth--;
if (isRef(value)) {
traverse(value.value, depth, seen);
} else if (isArray(value)) {
for (let i = 0; i < value.length; i++) {
traverse(value[i], depth, seen);
}
} else if (isSet(value) || isMap(value)) {
value.forEach((v) => {
traverse(v, depth, seen);
});
} else if (isPlainObject(value)) {
for (const key in value) {
traverse(value[key], depth, seen);
}
for (const key of Object.getOwnPropertySymbols(value)) {
if (Object.prototype.propertyIsEnumerable.call(value, key)) {
traverse(value[key], depth, seen);
}
}
}
return value;
}
const stack = [];
function pushWarningContext(vnode) {
stack.push(vnode);
}
function popWarningContext() {
stack.pop();
}
let isWarning = false;
function warn$1(msg, ...args) {
if (isWarning) return;
isWarning = true;
pauseTracking();
const instance = stack.length ? stack[stack.length - 1].component : null;
const appWarnHandler = instance && instance.appContext.config.warnHandler;
const trace = getComponentTrace();
if (appWarnHandler) {
callWithErrorHandling(
appWarnHandler,
instance,
11,
[
// eslint-disable-next-line no-restricted-syntax
msg + args.map((a) => {
var _a, _b;
return (_b = (_a = a.toString) == null ? void 0 : _a.call(a)) != null ? _b : JSON.stringify(a);
}).join(""),
instance && instance.proxy,
trace.map(
({ vnode }) => `at <${formatComponentName(instance, vnode.type)}>`
).join("\n"),
trace
]
);
} else {
const warnArgs = [`[Vue warn]: ${msg}`, ...args];
if (trace.length && // avoid spamming console during tests
true) {
warnArgs.push(`
`, ...formatTrace(trace));
}
console.warn(...warnArgs);
}
resetTracking();
isWarning = false;
}
function getComponentTrace() {
let currentVNode = stack[stack.length - 1];
if (!currentVNode) {
return [];
}
const normalizedStack = [];
while (currentVNode) {
const last = normalizedStack[0];
if (last && last.vnode === currentVNode) {
last.recurseCount++;
} else {
normalizedStack.push({
vnode: currentVNode,
recurseCount: 0
});
}
const parentInstance = currentVNode.component && currentVNode.component.parent;
currentVNode = parentInstance && parentInstance.vnode;
}
return normalizedStack;
}
function formatTrace(trace) {
const logs = [];
trace.forEach((entry, i) => {
logs.push(...i === 0 ? [] : [`
`], ...formatTraceEntry(entry));
});
return logs;
}
function formatTraceEntry({ vnode, recurseCount }) {
const postfix = recurseCount > 0 ? `... (${recurseCount} recursive calls)` : ``;
const isRoot = vnode.component ? vnode.component.parent == null : false;
const open = ` at <${formatComponentName(
vnode.component,
vnode.type,
isRoot
)}`;
const close = `>` + postfix;
return vnode.props ? [open, ...formatProps(vnode.props), close] : [open + close];
}
function formatProps(props) {
const res = [];
const keys = Object.keys(props);
keys.slice(0, 3).forEach((key) => {
res.push(...formatProp(key, props[key]));
});
if (keys.length > 3) {
res.push(` ...`);
}
return res;
}
function formatProp(key, value, raw) {
if (isString(value)) {
value = JSON.stringify(value);
return raw ? value : [`${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];
}
}
function assertNumber(val, type) {
if (val === void 0) {
return;
} else if (typeof val !== "number") {
warn$1(`${type} is not a valid number - got ${JSON.stringify(val)}.`);
} else if (isNaN(val)) {
warn$1(`${type} is NaN - the duration expression might be incorrect.`);
}
}
const ErrorCodes = {
"SETUP_FUNCTION": 0,
"0": "SETUP_FUNCTION",
"RENDER_FUNCTION": 1,
"1": "RENDER_FUNCTION",
"NATIVE_EVENT_HANDLER": 5,
"5": "NATIVE_EVENT_HANDLER",
"COMPONENT_EVENT_HANDLER": 6,
"6": "COMPONENT_EVENT_HANDLER",
"VNODE_HOOK": 7,
"7": "VNODE_HOOK",
"DIRECTIVE_HOOK": 8,
"8": "DIRECTIVE_HOOK",
"TRANSITION_HOOK": 9,
"9": "TRANSITION_HOOK",
"APP_ERROR_HANDLER": 10,
"10": "APP_ERROR_HANDLER",
"APP_WARN_HANDLER": 11,
"11": "APP_WARN_HANDLER",
"FUNCTION_REF": 12,
"12": "FUNCTION_REF",
"ASYNC_COMPONENT_LOADER": 13,
"13": "ASYNC_COMPONENT_LOADER",
"SCHEDULER": 14,
"14": "SCHEDULER",
"COMPONENT_UPDATE": 15,
"15": "COMPONENT_UPDATE",
"APP_UNMOUNT_CLEANUP": 16,
"16": "APP_UNMOUNT_CLEANUP"
};
const ErrorTypeStrings$1 = {
["sp"]: "serverPrefetch hook",
["bc"]: "beforeCreate hook",
["c"]: "created hook",
["bm"]: "beforeMount hook",
["m"]: "mounted hook",
["bu"]: "beforeUpdate hook",
["u"]: "updated",
["bum"]: "beforeUnmount hook",
["um"]: "unmounted hook",
["a"]: "activated hook",
["da"]: "deactivated hook",
["ec"]: "errorCaptured hook",
["rtc"]: "renderTracked hook",
["rtg"]: "renderTriggered hook",
[0]: "setup function",
[1]: "render function",
[2]: "watcher getter",
[3]: "watcher callback",
[4]: "watcher cleanup function",
[5]: "native event handler",
[6]: "component event handler",
[7]: "vnode hook",
[8]: "directive hook",
[9]: "transition hook",
[10]: "app errorHandler",
[11]: "app warnHandler",
[12]: "ref function",
[13]: "async component loader",
[14]: "scheduler flush",
[15]: "component update",
[16]: "app unmount cleanup function"
};
function callWithErrorHandling(fn, instance, type, args) {
try {
return args ? fn(...args) : fn();
} catch (err) {
handleError(err, instance, type);
}
}
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;
}
if (isArray(fn)) {
const values = [];
for (let i = 0; i < fn.length; i++) {
values.push(callWithAsyncErrorHandling(fn[i], instance, type, args));
}
return values;
} else {
warn$1(
`Invalid value type passed to callWithAsyncErrorHandling(): ${typeof fn}`
);
}
}
function handleError(err, instance, type, throwInDev = true) {
const contextVNode = instance ? instance.vnode : null;
const { errorHandler, throwUnhandledErrorInProduction } = instance && instance.appContext.config || EMPTY_OBJ;
if (instance) {
let cur = instance.parent;
const exposedInstance = instance.proxy;
const errorInfo = ErrorTypeStrings$1[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;
}
if (errorHandler) {
pauseTracking();
callWithErrorHandling(errorHandler, null, 10, [
err,
exposedInstance,
errorInfo
]);
resetTracking();
return;
}
}
logError(err, type, contextVNode, throwInDev, throwUnhandledErrorInProduction);
}
function logError(err, type, contextVNode, throwInDev = true, throwInProd = false) {
{
const info = ErrorTypeStrings$1[type];
if (contextVNode) {
pushWarningContext(contextVNode);
}
warn$1(`Unhandled error${info ? ` during execution of ${info}` : ``}`);
if (contextVNode) {
popWarningContext();
}
if (throwInDev) {
throw err;
} else {
console.error(err);
}
}
}
let isFlushing = false;
let isFlushPending = false;
const queue = [];
let flushIndex = 0;
const pendingPostFlushCbs = [];
let activePostFlushCbs = null;
let postFlushIndex = 0;
const resolvedPromise = /* @__PURE__ */ Promise.resolve();
let currentFlushPromise = null;
const RECURSION_LIMIT = 100;
function nextTick(fn) {
const p = currentFlushPromise || resolvedPromise;
return fn ? p.then(this ? fn.bind(this) : fn) : p;
}
function findInsertionIndex(id) {
let start = isFlushing ? flushIndex + 1 : 0;
let end = queue.length;
while (start < end) {
const middle = start + end >>> 1;
const middleJob = queue[middle];
const middleJobId = getId(middleJob);
if (middleJobId < id || middleJobId === id && middleJob.flags & 2) {
start = middle + 1;
} else {
end = middle;
}
}
return start;
}
function queueJob(job) {
if (!(job.flags & 1)) {
const jobId = getId(job);
const lastJob = queue[queue.length - 1];
if (!lastJob || // fast path when the job id is larger than the tail
!(job.flags & 2) && jobId >= getId(lastJob)) {
queue.push(job);
} else {
queue.splice(findInsertionIndex(jobId), 0, job);
}
job.flags |= 1;
queueFlush();
}
}
function queueFlush() {
if (!isFlushing && !isFlushPending) {
isFlushPending = true;
currentFlushPromise = resolvedPromise.then(flushJobs);
}
}
function queuePostFlushCb(cb) {
if (!isArray(cb)) {
if (activePostFlushCbs && cb.id === -1) {
activePostFlushCbs.splice(postFlushIndex + 1, 0, cb);
} else if (!(cb.flags & 1)) {
pendingPostFlushCbs.push(cb);
cb.flags |= 1;
}
} else {
pendingPostFlushCbs.push(...cb);
}
queueFlush();
}
function flushPreFlushCbs(instance, seen, i = isFlushing ? flushIndex + 1 : 0) {
{
seen = seen || /* @__PURE__ */ new Map();
}
for (; i < queue.length; i++) {
const cb = queue[i];
if (cb && cb.flags & 2) {
if (instance && cb.id !== instance.uid) {
continue;
}
if (checkRecursiveUpdates(seen, cb)) {
continue;
}
queue.splice(i, 1);
i--;
if (cb.flags & 4) {
cb.flags &= ~1;
}
cb();
if (!(cb.flags & 4)) {
cb.flags &= ~1;
}
}
}
}
function flushPostFlushCbs(seen) {
if (pendingPostFlushCbs.length) {
const deduped = [...new Set(pendingPostFlushCbs)].sort(
(a, b) => getId(a) - getId(b)
);
pendingPostFlushCbs.length = 0;
if (activePostFlushCbs) {
activePostFlushCbs.push(...deduped);
return;
}
activePostFlushCbs = deduped;
{
seen = seen || /* @__PURE__ */ new Map();
}
for (postFlushIndex = 0; postFlushIndex < activePostFlushCbs.length; postFlushIndex++) {
const cb = activePostFlushCbs[postFlushIndex];
if (checkRecursiveUpdates(seen, cb)) {
continue;
}
if (cb.flags & 4) {
cb.flags &= ~1;
}
if (!(cb.flags & 8)) cb();
cb.flags &= ~1;
}
activePostFlushCbs = null;
postFlushIndex = 0;
}
}
const getId = (job) => job.id == null ? job.flags & 2 ? -1 : Infinity : job.id;
function flushJobs(seen) {
isFlushPending = false;
isFlushing = true;
{
seen = seen || /* @__PURE__ */ new Map();
}
const check = (job) => checkRecursiveUpdates(seen, job) ;
try {
for (flushIndex = 0; flushIndex < queue.length; flushIndex++) {
const job = queue[flushIndex];
if (job && !(job.flags & 8)) {
if (check(job)) {
continue;
}
if (job.flags & 4) {
job.flags &= ~1;
}
callWithErrorHandling(
job,
job.i,
job.i ? 15 : 14
);
if (!(job.flags & 4)) {
job.flags &= ~1;
}
}
}
} finally {
for (; flushIndex < queue.length; flushIndex++) {
const job = queue[flushIndex];
if (job) {
job.flags &= ~1;
}
}
flushIndex = 0;
queue.length = 0;
flushPostFlushCbs(seen);
isFlushing = false;
currentFlushPromise = null;
if (queue.length || pendingPostFlushCbs.length) {
flushJobs(seen);
}
}
}
function checkRecursiveUpdates(seen, fn) {
const count = seen.get(fn) || 0;
if (count > RECURSION_LIMIT) {
const instance = fn.i;
const componentName = instance && getComponentName(instance.type);
handleError(
`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.`,
null,
10
);
return true;
}
seen.set(fn, count + 1);
return false;
}
let isHmrUpdating = false;
const hmrDirtyComponents = /* @__PURE__ */ new Map();
{
getGlobalThis().__VUE_HMR_RUNTIME__ = {
createRecord: tryWrap(createRecord),
rerender: tryWrap(rerender),
reload: tryWrap(reload)
};
}
const map = /* @__PURE__ */ 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: /* @__PURE__ */ 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;
}
record.initialDef.render = newRender;
[...record.instances].forEach((instance) => {
if (newRender) {
instance.render = newRender;
normalizeClassComponent(instance.type).render = newRender;
}
instance.renderCache = [];
isHmrUpdating = true;
instance.update();
isHmrUpdating = false;
});
}
function reload(id, newComp) {
const record = map.get(id);
if (!record) return;
newComp = normalizeClassComponent(newComp);
updateComponentDef(record.initialDef, newComp);
const instances = [...record.instances];
for (let i = 0; i < instances.length; i++) {
const instance = instances[i];
const oldComp = normalizeClassComponent(instance.type);
let dirtyInstances = hmrDirtyComponents.get(oldComp);
if (!dirtyInstances) {
if (oldComp !== record.initialDef) {
updateComponentDef(oldComp, newComp);
}
hmrDirtyComponents.set(oldComp, dirtyInstances = /* @__PURE__ */ new Set());
}
dirtyInstances.add(instance);
instance.appContext.propsCache.delete(instance.type);
instance.appContext.emitsCache.delete(instance.type);
instance.appContext.optionsCache.delete(instance.type);
if (instance.ceReload) {
dirtyInstances.add(instance);
instance.ceReload(newComp.styles);
dirtyInstances.delete(instance);
} else if (instance.parent) {
queueJob(() => {
isHmrUpdating = true;
instance.parent.update();
isHmrUpdating = false;
dirtyInstances.delete(instance);
});
} else if (instance.appContext.reload) {
instance.appContext.reload();
} else if (typeof window !== "undefined") {
window.location.reload();
} else {
console.warn(
"[HMR] Root or manually mounted instance modified. Full reload required."
);
}
if (instance.root.ce && instance !== instance.root) {
instance.root.ce._removeChildStyle(oldComp);
}
}
queuePostFlushCb(() => {
hmrDirtyComponents.clear();
});
}
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$1;
let buffer = [];
let devtoolsNotInstalled = false;
function emit$1(event, ...args) {
if (devtools$1) {
devtools$1.emit(event, ...args);
} else if (!devtoolsNotInstalled) {
buffer.push({ event, args });
}
}
function setDevtoolsHook$1(hook, target) {
var _a, _b;
devtools$1 = hook;
if (devtools$1) {
devtools$1.enabled = true;
buffer.forEach(({ event, args }) => devtools$1.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
// eslint-disable-next-line no-restricted-syntax
!((_b = (_a = window.navigator) == null ? void 0 : _a.userAgent) == null ? void 0 : _b.includes("jsdom"))
) {
const replay = target.__VUE_DEVTOOLS_HOOK_REPLAY__ = target.__VUE_DEVTOOLS_HOOK_REPLAY__ || [];
replay.push((newHook) => {
setDevtoolsHook$1(newHook, target);
});
setTimeout(() => {
if (!devtools$1) {
target.__VUE_DEVTOOLS_HOOK_REPLAY__ = null;
devtoolsNotInstalled = true;
buffer = [];
}
}, 3e3);
} else {
devtoolsNotInstalled = true;
buffer = [];
}
}
function devtoolsInitApp(app, version) {
emit$1("app:init" /* APP_INIT */, app, version, {
Fragment,
Text,
Comment,
Static
});
}
function devtoolsUnmountApp(app) {
emit$1("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 */
);
const devtoolsComponentRemoved = (component) => {
if (devtools$1 && typeof devtools$1.cleanupBuffer === "function" && // remove the component if it wasn't buffered
!devtools$1.cleanupBuffer(component)) {
_devtoolsComponentRemoved(component);
}
};
/*! #__NO_SIDE_EFFECTS__ */
// @__NO_SIDE_EFFECTS__
function createDevtoolsComponentHook(hook) {
return (component) => {
emit$1(
hook,
component.appContext.app,
component.uid,
component.parent ? component.parent.uid : void 0,
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$1(hook, component.appContext.app, component.uid, component, type, time);
};
}
function devtoolsComponentEmit(component, event, params) {
emit$1(
"component:emit" /* COMPONENT_EMIT */,
component.appContext.app,
component,
event,
params
);
}
let currentRenderingInstance = null;
let currentScopeId = null;
function setCurrentRenderingInstance(instance) {
const prev = currentRenderingInstance;
currentRenderingInstance = instance;
currentScopeId = instance && instance.type.__scopeId || null;
return prev;
}
function pushScopeId(id) {
currentScopeId = id;
}
function popScopeId() {
currentScopeId = null;
}
const withScopeId = (_id) => withCtx;
function withCtx(fn, ctx = currentRenderingInstance, isNonScopedSlot) {
if (!ctx) return fn;
if (fn._n) {
return fn;
}
const renderFnWithContext = (...args) => {
if (renderFnWithContext._d) {
setBlockTracking(-1);
}
const prevInstance = setCurrentRenderingInstance(ctx);
let res;
try {
res = fn(...args);
} finally {
setCurrentRenderingInstance(prevInstance);
if (renderFnWithContext._d) {
setBlockTracking(1);
}
}
{
devtoolsComponentUpdated(ctx);
}
return res;
};
renderFnWithContext._n = true;
renderFnWithContext._c = true;
renderFnWithContext._d = true;
return renderFnWithContext;
}
function validateDirectiveName(name) {
if (isBuiltInDirective(name)) {
warn$1("Do not use built-in directive ids as custom directive id: " + name);
}
}
function withDirectives(vnode, directives) {
if (currentRenderingInstance === null) {
warn$1(`withDirectives can only be used inside render functions.`);
return vnode;
}
const instance = getComponentPublicInstance(currentRenderingInstance);
const bindings = vnode.dirs || (vnode.dirs = []);
for (let i = 0; i < directives.length; i++) {
let [dir, value, arg, modifiers = EMPTY_OBJ] = directives[i];
if (dir) {
if (isFunction(dir)) {
dir = {
mounted: dir,
updated: dir
};
}
if (dir.deep) {
traverse(value);
}
bindings.push({
dir,
instance,
value,
oldValue: void 0,
arg,
modifiers
});
}
}
return vnode;
}
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) {
pauseTracking();
callWithAsyncErrorHandling(hook, instance, 8, [
vnode.el,
binding,
vnode,
prevVNode
]);
resetTracking();
}
}
}
const TeleportEndKey = Symbol("_vte");
const isTeleport = (type) => type.__isTeleport;
const isTeleportDisabled = (props) => props && (props.disabled || props.disabled === "");
const isTeleportDeferred = (props) => props && (props.defer || props.defer === "");
const isTargetSVG = (target) => typeof SVGElement !== "undefined" && target instanceof SVGElement;
const isTargetMathML = (target) => typeof MathMLElement === "function" && target instanceof MathMLElement;
const resolveTarget = (props, select) => {
const targetSelector = props && props.to;
if (isString(targetSelector)) {
if (!select) {
warn$1(
`Current renderer does not support string target for Teleports. (missing querySelector renderer option)`
);
return null;
} else {
const target = select(targetSelector);
if (!target && !isTeleportDisabled(props)) {
warn$1(
`Failed to locate Teleport target with selector "${targetSelector}". Note the target element must exist before the component is mounted - i.e. the target cannot be rendered by the component itself, and ideally should be outside of the entire Vue component tree.`
);
}
return target;
}
} else {
if (!targetSelector && !isTeleportDisabled(props)) {
warn$1(`Invalid Teleport target: ${targetSelector}`);
}
return targetSelector;
}
};
const TeleportImpl = {
name: "Teleport",
__isTeleport: true,
process(n1, n2, container, anchor, parentComponent, parentSuspense, namespace, slotScopeIds, optimized, internals) {
const {
mc: mountChildren,
pc: patchChildren,
pbc: patchBlockChildren,
o: { insert, querySelector, createText, createComment }
} = internals;
const disabled = isTeleportDisabled(n2.props);
let { shapeFlag, children, dynamicChildren } = n2;
if (isHmrUpdating) {
optimized = false;
dynamicChildren = null;
}
if (n1 == null) {
const placeholder = n2.el = createComment("teleport start") ;
const mainAnchor = n2.anchor = createComment("teleport end") ;
insert(placeholder, container, anchor);
insert(mainAnchor, container, anchor);
const mount = (container2, anchor2) => {
if (shapeFlag & 16) {
if (parentComponent && parentComponent.isCE) {
parentComponent.ce._teleportTarget = container2;
}
mountChildren(
children,
container2,
anchor2,
parentComponent,
parentSuspense,
namespace,
slotScopeIds,
optimized
);
}
};
const mountToTarget = () => {
const target = n2.target = resolveTarget(n2.props, querySelector);
const targetAnchor = prepareAnchor(target, n2, createText, insert);
if (target) {
if (namespace !== "svg" && isTargetSVG(target)) {
namespace = "svg";
} else if (namespace !== "mathml" && isTargetMathML(target)) {
namespace = "mathml";
}
if (!disabled) {
mount(target, targetAnchor);
updateCssVars(n2);
}
} else if (!disabled) {
warn$1(
"Invalid Teleport target on mount:",
target,
`(${typeof target})`
);
}
};
if (disabled) {
mount(container, mainAnchor);
updateCssVars(n2);
}
if (isTeleportDeferred(n2.props)) {
queuePostRenderEffect(mountToTarget, parentSuspense);
} else {
mountToTarget();
}
} else {
n2.el = n1.el;
n2.targetStart = n1.targetStart;
const mainAnchor = n2.anchor = n1.anchor;
const target = n2.target = n1.target;
const targetAnchor = n2.targetAnchor = n1.targetAnchor;
const wasDisabled = isTeleportDisabled(n1.props);
const currentContainer = wasDisabled ? container : target;
const currentAnchor = wasDisabled ? mainAnchor : targetAnchor;
if (namespace === "svg" || isTargetSVG(target)) {
namespace = "svg";
} else if (namespace === "mathml" || isTargetMathML(target)) {
namespace = "mathml";
}
if (dynamicChildren) {
patchBlockChildren(
n1.dynamicChildren,
dynamicChildren,
currentContainer,
parentComponent,
parentSuspense,
namespace,
slotScopeIds
);
traverseStaticChildren(n1, n2, true);
} else if (!optimized) {
patchChildren(
n1,
n2,
currentContainer,
currentAnchor,
parentComponent,
parentSuspense,
namespace,
slotScopeIds,
false
);
}
if (disabled) {
if (!wasDisabled) {
moveTeleport(
n2,
container,
mainAnchor,
internals,
1
);
} else {
if (n2.props && n1.props && n2.props.to !== n1.props.to) {
n2.props.to = n1.props.to;
}
}
} else {
if ((n2.props && n2.props.to) !== (n1.props && n1.props.to)) {
const nextTarget = n2.target = resolveTarget(
n2.props,
querySelector
);
if (nextTarget) {
moveTeleport(
n2,
nextTarget,
null,
internals,
0
);
} else {
warn$1(
"Invalid Teleport target on update:",
target,
`(${typeof target})`
);
}
} else if (wasDisabled) {
moveTeleport(
n2,
target,
targetAnchor,
internals,
1
);
}
}
updateCssVars(n2);
}
},
remove(vnode, parentComponent, parentSuspense, { um: unmount, o: { remove: hostRemove } }, doRemove) {
const {
shapeFlag,
children,
anchor,
targetStart,
targetAnchor,
target,
props
} = vnode;
if (target) {
hostRemove(targetStart);
hostRemove(targetAnchor);
}
doRemove && hostRemove(anchor);
if (shapeFlag & 16) {
const shouldRemove = doRemove || !isTeleportDisabled(props);
for (let i = 0; i < children.length; i++) {
const child = children[i];
unmount(
child,
parentComponent,
parentSuspense,
shouldRemove,
!!child.dynamicChildren
);
}
}
},
move: moveTeleport,
hydrate: hydrateTeleport
};
function moveTeleport(vnode, container, parentAnchor, { o: { insert }, m: move }, moveType = 2) {
if (moveType === 0) {
insert(vnode.targetAnchor, container, parentAnchor);
}
const { el, anchor, shapeFlag, children, props } = vnode;
const isReorder = moveType === 2;
if (isReorder) {
insert(el, container, parentAnchor);
}
if (!isReorder || isTeleportDisabled(props)) {
if (shapeFlag & 16) {
for (let i = 0; i < children.length; i++) {
move(
children[i],
container,
parentAnchor,
2
);
}
}
}
if (isReorder) {
insert(anchor, container, parentAnchor);
}
}
function hydrateTeleport(node, vnode, parentComponent, parentSuspense, slotScopeIds, optimized, {
o: { nextSibling, parentNode, querySelector, insert, createText }
}, hydrateChildren) {
const target = vnode.target = resolveTarget(
vnode.props,
querySelector
);
if (target) {
const targetNode = target._lpa || target.firstChild;
if (vnode.shapeFlag & 16) {
if (isTeleportDisabled(vnode.props)) {
vnode.anchor = hydrateChildren(
nextSibling(node),
vnode,
parentNode(node),
parentComponent,
parentSuspense,
slotScopeIds,
optimized
);
vnode.targetStart = targetNode;
vnode.targetAnchor = targetNode && nextSibling(targetNode);
} else {
vnode.anchor = nextSibling(node);
let targetAnchor = targetNode;
while (targetAnchor) {
if (targetAnchor && targetAnchor.nodeType === 8) {
if (targetAnchor.data === "teleport start anchor") {
vnode.targetStart = targetAnchor;
} else if (targetAnchor.data === "teleport anchor") {
vnode.targetAnchor = targetAnchor;
target._lpa = vnode.targetAnchor && nextSibling(vnode.targetAnchor);
break;
}
}
targetAnchor = nextSibling(targetAnchor);
}
if (!vnode.targetAnchor) {
prepareAnchor(target, vnode, createText, insert);
}
hydrateChildren(
targetNode && nextSibling(targetNode),
vnode,
target,
parentComponent,
parentSuspense,
slotScopeIds,
optimized
);
}
}
updateCssVars(vnode);
}
return vnode.anchor && nextSibling(vnode.anchor);
}
const Teleport = TeleportImpl;
function updateCssVars(vnode) {
const ctx = vnode.ctx;
if (ctx && ctx.ut) {
let node = vnode.targetStart;
while (node && node !== vnode.targetAnchor) {
if (node.nodeType === 1) node.setAttribute("data-v-owner", ctx.uid);
node = node.nextSibling;
}
ctx.ut();
}
}
function prepareAnchor(target, vnode, createText, insert) {
const targetStart = vnode.targetStart = createText("");
const targetAnchor = vnode.targetAnchor = createText("");
targetStart[TeleportEndKey] = targetAnchor;
if (target) {
insert(targetStart, target);
insert(targetAnchor, target);
}
return targetAnchor;
}
const leaveCbKey = Symbol("_leaveCb");
const enterCbKey$1 = Symbol("_enterCb");
function useTransitionState() {
const state = {
isMounted: false,
isLeaving: false,
isUnmounting: false,
leavingVNodes: /* @__PURE__ */ new Map()
};
onMounted(() => {
state.isMounted = true;
});
onBeforeUnmount(() => {
state.isUnmounting = true;
});
return state;
}
const TransitionHookValidator = [Function, Array];
const BaseTransitionPropsValidators = {
mode: String,
appear: Boolean,
persisted: Boolean,
// enter
onBeforeEnter: TransitionHookValidator,
onEnter: TransitionHookValidator,
onAfterEnter: TransitionHookValidator,
onEnterCancelled: TransitionHookValidator,
// leave
onBeforeLeave: TransitionHookValidator,
onLeave: TransitionHookValidator,
onAfterLeave: TransitionHookValidator,
onLeaveCancelled: TransitionHookValidator,
// appear
onBeforeAppear: TransitionHookValidator,
onAppear: TransitionHookValidator,
onAfterAppear: TransitionHookValidator,
onAppearCancelled: TransitionHookValidator
};
const recursiveGetSubtree = (instance) => {
const subTree = instance.subTree;
return subTree.component ? recursiveGetSubtree(subTree.component) : subTree;
};
const BaseTransitionImpl = {
name: `BaseTransition`,
props: BaseTransitionPropsValidators,
setup(props, { slots }) {
const instance = getCurrentInstance();
const state = useTransitionState();
return () => {
const children = slots.default && getTransitionRawChildren(slots.default(), true);
if (!children || !children.length) {
return;
}
const child = findNonCommentChild(children);
const rawProps = toRaw(props);
const { mode } = rawProps;
if (mode && mode !== "in-out" && mode !== "out-in" && mode !== "default") {
warn$1(`invalid mode: ${mode}`);
}
if (state.isLeaving) {
return emptyPlaceholder(child);
}
const innerChild = getInnerChild$1(child);
if (!innerChild) {
return emptyPlaceholder(child);
}
let enterHooks = resolveTransitionHooks(
innerChild,
rawProps,
state,
instance,
// #11061, ensure enterHooks is fresh after clone
(hooks) => enterHooks = hooks
);
if (innerChild.type !== Comment) {
setTransitionHooks(innerChild, enterHooks);
}
const oldChild = instance.subTree;
const oldInnerChild = oldChild && getInnerChild$1(oldChild);
if (oldInnerChild && oldInnerChild.type !== Comment && !isSameVNodeType(innerChild, oldInnerChild) && recursiveGetSubtree(instance).type !== Comment) {
const leavingHooks = resolveTransitionHooks(
oldInnerChild,
rawProps,
state,
instance
);
setTransitionHooks(oldInnerChild, leavingHooks);
if (mode === "out-in" && innerChild.type !== Comment) {
state.isLeaving = true;
leavingHooks.afterLeave = () => {
state.isLeaving = false;
if (!(instance.job.flags & 8)) {
instance.update();
}
delete leavingHooks.afterLeave;
};
return emptyPlaceholder(child);
} else if (mode === "in-out" && innerChild.type !== Comment) {
leavingHooks.delayLeave = (el, earlyRemove, delayedLeave) => {
const leavingVNodesCache = getLeavingNodesForType(
state,
oldInnerChild
);
leavingVNodesCache[String(oldInnerChild.key)] = oldInnerChild;
el[leaveCbKey] = () => {
earlyRemove();
el[leaveCbKey] = void 0;
delete enterHooks.delayedLeave;
};
enterHooks.delayedLeave = delayedLeave;
};
}
}
return child;
};
}
};
function findNonCommentChild(children) {
let child = children[0];
if (children.length > 1) {
let hasFound = false;
for (const c of children) {
if (c.type !== Comment) {
if (hasFound) {
warn$1(
" can only be used on a single element or component. Use for lists."
);
break;
}
child = c;
hasFound = true;
}
}
}
return child;
}
const BaseTransition = BaseTransitionImpl;
function getLeavingNodesForType(state, vnode) {
const { leavingVNodes } = state;
let leavingVNodesCache = leavingVNodes.get(vnode.type);
if (!leavingVNodesCache) {
leavingVNodesCache = /* @__PURE__ */ Object.create(null);
leavingVNodes.set(vnode.type, leavingVNodesCache);
}
return leavingVNodesCache;
}
function resolveTransitionHooks(vnode, props, state, instance, postClone) {
const {
appear,
mode,
persisted = false,
onBeforeEnter,
onEnter,
onAfterEnter,
onEnterCancelled,
onBeforeLeave,
onLeave,
onAfterLeave,
onLeaveCancelled,
onBeforeAppear,
onAppear,
onAfterAppear,
onAppearCancelled
} = props;
const key = String(vnode.key);
const leavingVNodesCache = getLeavingNodesForType(state, vnode);
const callHook = (hook, args) => {
hook && callWithAsyncErrorHandling(
hook,
instance,
9,
args
);
};
const callAsyncHook = (hook, args) => {
const done = args[1];
callHook(hook, args);
if (isArray(hook)) {
if (hook.every((hook2) => hook2.length <= 1)) done();
} else if (hook.length <= 1) {
done();
}
};
const hooks = {
mode,
persisted,
beforeEnter(el) {
let hook = onBeforeEnter;
if (!state.isMounted) {
if (appear) {
hook = onBeforeAppear || onBeforeEnter;
} else {
return;
}
}
if (el[leaveCbKey]) {
el[leaveCbKey](
true
/* cancelled */
);
}
const leavingVNode = leavingVNodesCache[key];
if (leavingVNode && isSameVNodeType(vnode, leavingVNode) && leavingVNode.el[leaveCbKey]) {
leavingVNode.el[leaveCbKey]();
}
callHook(hook, [el]);
},
enter(el) {
let hook = onEnter;
let afterHook = onAfterEnter;
let cancelHook = onEnterCancelled;
if (!state.isMounted) {
if (appear) {
hook = onAppear || onEnter;
afterHook = onAfterAppear || onAfterEnter;
cancelHook = onAppearCancelled || onEnterCancelled;
} else {
return;
}
}
let called = false;
const done = el[enterCbKey$1] = (cancelled) => {
if (called) return;
called = true;
if (cancelled) {
callHook(cancelHook, [el]);
} else {
callHook(afterHook, [el]);
}
if (hooks.delayedLeave) {
hooks.delayedLeave();
}
el[enterCbKey$1] = void 0;
};
if (hook) {
callAsyncHook(hook, [el, done]);
} else {
done();
}
},
leave(el, remove) {
const key2 = String(vnode.key);
if (el[enterCbKey$1]) {
el[enterCbKey$1](
true
/* cancelled */
);
}
if (state.isUnmounting) {
return remove();
}
callHook(onBeforeLeave, [el]);
let called = false;
const done = el[leaveCbKey] = (cancelled) => {
if (called) return;
called = true;
remove();
if (cancelled) {
callHook(onLeaveCancelled, [el]);
} else {
callHook(onAfterLeave, [el]);
}
el[leaveCbKey] = void 0;
if (leavingVNodesCache[key2] === vnode) {
delete leavingVNodesCache[key2];
}
};
leavingVNodesCache[key2] = vnode;
if (onLeave) {
callAsyncHook(onLeave, [el, done]);
} else {
done();
}
},
clone(vnode2) {
const hooks2 = resolveTransitionHooks(
vnode2,
props,
state,
instance,
postClone
);
if (postClone) postClone(hooks2);
return hooks2;
}
};
return hooks;
}
function emptyPlaceholder(vnode) {
if (isKeepAlive(vnode)) {
vnode = cloneVNode(vnode);
vnode.children = null;
return vnode;
}
}
function getInnerChild$1(vnode) {
if (!isKeepAlive(vnode)) {
if (isTeleport(vnode.type) && vnode.children) {
return findNonCommentChild(vnode.children);
}
return vnode;
}
if (vnode.component) {
return vnode.component.subTree;
}
const { shapeFlag, children } = vnode;
if (children) {
if (shapeFlag & 16) {
return children[0];
}
if (shapeFlag & 32 && isFunction(children.default)) {
return children.default();
}
}
}
function setTransitionHooks(vnode, hooks) {
if (vnode.shapeFlag & 6 && vnode.component) {
vnode.transition = hooks;
setTransitionHooks(vnode.component.subTree, hooks);
} else if (vnode.shapeFlag & 128) {
vnode.ssContent.transition = hooks.clone(vnode.ssContent);
vnode.ssFallback.transition = hooks.clone(vnode.ssFallback);
} else {
vnode.transition = hooks;
}
}
function getTransitionRawChildren(children, keepComment = false, parentKey) {
let ret = [];
let keyedFragmentCount = 0;
for (let i = 0; i < children.length; i++) {
let child = children[i];
const key = parentKey == null ? child.key : String(parentKey) + String(child.key != null ? child.key : i);
if (child.type === Fragment) {
if (child.patchFlag & 128) keyedFragmentCount++;
ret = ret.concat(
getTransitionRawChildren(child.children, keepComment, key)
);
} else if (keepComment || child.type !== Comment) {
ret.push(key != null ? cloneVNode(child, { key }) : child);
}
}
if (keyedFragmentCount > 1) {
for (let i = 0; i < ret.length; i++) {
ret[i].patchFlag = -2;
}
}
return ret;
}
/*! #__NO_SIDE_EFFECTS__ */
// @__NO_SIDE_EFFECTS__
function defineComponent(options, extraOptions) {
return isFunction(options) ? (
// #8236: extend call and options.name access are considered side-effects
// by Rollup, so we have to wrap it in a pure-annotated IIFE.
/* @__PURE__ */ (() => extend({ name: options.name }, extraOptions, { setup: options }))()
) : options;
}
function useId() {
const i = getCurrentInstance();
if (i) {
return (i.appContext.config.idPrefix || "v") + "-" + i.ids[0] + i.ids[1]++;
} else {
warn$1(
`useId() is called when there is no active component instance to be associated with.`
);
}
return "";
}
function markAsyncBoundary(instance) {
instance.ids = [instance.ids[0] + instance.ids[2]++ + "-", 0, 0];
}
const knownTemplateRefs = /* @__PURE__ */ new WeakSet();
function useTemplateRef(key) {
const i = getCurrentInstance();
const r = shallowRef(null);
if (i) {
const refs = i.refs === EMPTY_OBJ ? i.refs = {} : i.refs;
let desc;
if ((desc = Object.getOwnPropertyDescriptor(refs, key)) && !desc.configurable) {
warn$1(`useTemplateRef('${key}') already exists.`);
} else {
Object.defineProperty(refs, key, {
enumerable: true,
get: () => r.value,
set: (val) => r.value = val
});
}
} else {
warn$1(
`useTemplateRef() is called when there is no active component instance to be associated with.`
);
}
const ret = readonly(r) ;
{
knownTemplateRefs.add(ret);
}
return ret;
}
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) {
return;
}
const refValue = vnode.shapeFlag & 4 ? getComponentPublicInstance(vnode.component) : 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;
const rawSetupState = toRaw(setupState);
const canSetSetupRef = setupState === EMPTY_OBJ ? () => false : (key) => {
if (knownTemplateRefs.has(rawSetupState[key])) {
return false;
}
return hasOwn(rawSetupState, key);
};
if (oldRef != null && oldRef !== ref) {
if (isString(oldRef)) {
refs[oldRef] = null;
if (canSetSetupRef(oldRef)) {
setupState[oldRef] = null;
}
} else if (isRef(oldRef)) {
oldRef.value = null;
}
}
if (isFunction(ref)) {
callWithErrorHandling(ref, owner, 12, [value, refs]);
} else {
const _isString = isString(ref);
const _isRef = isRef(ref);
if (_isString || _isRef) {
const doSet = () => {
if (rawRef.f) {
const existing = _isString ? canSetSetupRef(ref) ? setupState[ref] : refs[ref] : ref.value;
if (isUnmount) {
isArray(existing) && remove(existing, refValue);
} else {
if (!isArray(existing)) {
if (_isString) {
refs[ref] = [refValue];
if (canSetSetupRef(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 (canSetSetupRef(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})`);
}
}
}
let hasLoggedMismatchError = false;
const logMismatchError = () => {
if (hasLoggedMismatchError) {
return;
}
console.error("Hydration completed but contains mismatches.");
hasLoggedMismatchError = true;
};
const isSVGContainer = (container) => container.namespaceURI.includes("svg") && container.tagName !== "foreignObject";
const isMathMLContainer = (container) => container.namespaceURI.includes("MathML");
const getContainerType = (container) => {
if (container.nodeType !== 1) return void 0;
if (isSVGContainer(container)) return "svg";
if (isMathMLContainer(container)) return "mathml";
return void 0;
};
const isComment = (node) => node.nodeType === 8;
function createHydrationFunctions(rendererInternals) {
const {
mt: mountComponent,
p: patch,
o: {
patchProp,
createText,
nextSibling,
parentNode,
remove,
insert,
createComment
}
} = rendererInternals;
const hydrate = (vnode, container) => {
if (!container.hasChildNodes()) {
warn$1(
`Attempting to hydrate existing markup but container is empty. Performing full mount instead.`
);
patch(null, vnode, container);
flushPostFlushCbs();
container._vnode = vnode;
return;
}
hydrateNode(container.firstChild, vnode, null, null, null);
flushPostFlushCbs();
container._vnode = vnode;
};
const hydrateNode = (node, vnode, parentComponent, parentSuspense, slotScopeIds, optimized = false) => {
optimized = optimized || !!vnode.dynamicChildren;
const isFragmentStart = isComment(node) && node.data === "[";
const onMismatch = () => handleMismatch(
node,
vnode,
parentComponent,
parentSuspense,
slotScopeIds,
isFragmentStart
);
const { type, ref, shapeFlag, patchFlag } = vnode;
let domType = node.nodeType;
vnode.el = node;
{
def(node, "__vnode", vnode, true);
def(node, "__vueParentComponent", parentComponent, true);
}
if (patchFlag === -2) {
optimized = false;
vnode.dynamicChildren = null;
}
let nextNode = null;
switch (type) {
case Text:
if (domType !== 3) {
if (vnode.children === "") {
insert(vnode.el = createText(""), parentNode(node), node);
nextNode = node;
} else {
nextNode = onMismatch();
}
} else {
if (node.data !== vnode.children) {
warn$1(
`Hydration text mismatch in`,
node.parentNode,
`
- rendered on server: ${JSON.stringify(
node.data
)}
- expected on client: ${JSON.stringify(vnode.children)}`
);
logMismatchError();
node.data = vnode.children;
}
nextNode = nextSibling(node);
}
break;
case Comment:
if (isTemplateNode(node)) {
nextNode = nextSibling(node);
replaceNode(
vnode.el = node.content.firstChild,
node,
parentComponent
);
} else if (domType !== 8 || isFragmentStart) {
nextNode = onMismatch();
} else {
nextNode = nextSibling(node);
}
break;
case Static:
if (isFragmentStart) {
node = nextSibling(node);
domType = node.nodeType;
}
if (domType === 1 || domType === 3) {
nextNode = node;
const needToAdoptContent = !vnode.children.length;
for (let i = 0; i < vnode.staticCount; i++) {
if (needToAdoptContent)
vnode.children += nextNode.nodeType === 1 ? nextNode.outerHTML : nextNode.data;
if (i === vnode.staticCount - 1) {
vnode.anchor = nextNode;
}
nextNode = nextSibling(nextNode);
}
return isFragmentStart ? nextSibling(nextNode) : nextNode;
} else {
onMismatch();
}
break;
case Fragment:
if (!isFragmentStart) {
nextNode = onMismatch();
} else {
nextNode = hydrateFragment(
node,
vnode,
parentComponent,
parentSuspense,
slotScopeIds,
optimized
);
}
break;
default:
if (shapeFlag & 1) {
if ((domType !== 1 || vnode.type.toLowerCase() !== node.tagName.toLowerCase()) && !isTemplateNode(node)) {
nextNode = onMismatch();
} else {
nextNode = hydrateElement(
node,
vnode,
parentComponent,
parentSuspense,
slotScopeIds,
optimized
);
}
} else if (shapeFlag & 6) {
vnode.slotScopeIds = slotScopeIds;
const container = parentNode(node);
if (isFragmentStart) {
nextNode = locateClosingAnchor(node);
} else if (isComment(node) && node.data === "teleport start") {
nextNode = locateClosingAnchor(node, node.data, "teleport end");
} else {
nextNode = nextSibling(node);
}
mountComponent(
vnode,
container,
null,
parentComponent,
parentSuspense,
getContainerType(container),
optimized
);
if (isAsyncWrapper(vnode)) {
let subTree;
if (isFragmentStart) {
subTree = createVNode(Fragment);
subTree.anchor = nextNode ? nextNode.previousSibling : container.lastChild;
} else {
subTree = node.nodeType === 3 ? createTextVNode("") : createVNode("div");
}
subTree.el = node;
vnode.component.subTree = subTree;
}
} else if (shapeFlag & 64) {
if (domType !== 8) {
nextNode = onMismatch();
} else {
nextNode = vnode.type.hydrate(
node,
vnode,
parentComponent,
parentSuspense,
slotScopeIds,
optimized,
rendererInternals,
hydrateChildren
);
}
} else if (shapeFlag & 128) {
nextNode = vnode.type.hydrate(
node,
vnode,
parentComponent,
parentSuspense,
getContainerType(parentNode(node)),
slotScopeIds,
optimized,
rendererInternals,
hydrateNode
);
} else {
warn$1("Invalid HostVNode type:", type, `(${typeof type})`);
}
}
if (ref != null) {
setRef(ref, null, parentSuspense, vnode);
}
return nextNode;
};
const hydrateElement = (el, vnode, parentComponent, parentSuspense, slotScopeIds, optimized) => {
optimized = optimized || !!vnode.dynamicChildren;
const { type, props, patchFlag, shapeFlag, dirs, transition } = vnode;
const forcePatch = type === "input" || type === "option";
{
if (dirs) {
invokeDirectiveHook(vnode, null, parentComponent, "created");
}
let needCallTransitionHooks = false;
if (isTemplateNode(el)) {
needCallTransitionHooks = needTransition(parentSuspense, transition) && parentComponent && parentComponent.vnode.props && parentComponent.vnode.props.appear;
const content = el.content.firstChild;
if (needCallTransitionHooks) {
transition.beforeEnter(content);
}
replaceNode(content, el, parentComponent);
vnode.el = el = content;
}
if (shapeFlag & 16 && // skip if element has innerHTML / textContent
!(props && (props.innerHTML || props.textContent))) {
let next = hydrateChildren(
el.firstChild,
vnode,
el,
parentComponent,
parentSuspense,
slotScopeIds,
optimized
);
let hasWarned = false;
while (next) {
if (!isMismatchAllowed(el, 1 /* CHILDREN */)) {
if (!hasWarned) {
warn$1(
`Hydration children mismatch on`,
el,
`
Server rendered element contains more child nodes than client vdom.`
);
hasWarned = true;
}
logMismatchError();
}
const cur = next;
next = next.nextSibling;
remove(cur);
}
} else if (shapeFlag & 8) {
let clientText = vnode.children;
if (clientText[0] === "\n" && (el.tagName === "PRE" || el.tagName === "TEXTAREA")) {
clientText = clientText.slice(1);
}
if (el.textContent !== clientText) {
if (!isMismatchAllowed(el, 0 /* TEXT */)) {
warn$1(
`Hydration text content mismatch on`,
el,
`
- rendered on server: ${el.textContent}
- expected on client: ${vnode.children}`
);
logMismatchError();
}
el.textContent = vnode.children;
}
}
if (props) {
{
const isCustomElement = el.tagName.includes("-");
for (const key in props) {
if (// #11189 skip if this node has directives that have created hooks
// as it could have mutated the DOM in any possible way
!(dirs && dirs.some((d) => d.dir.created)) && propHasMismatch(el, key, props[key], vnode, parentComponent)) {
logMismatchError();
}
if (forcePatch && (key.endsWith("value") || key === "indeterminate") || isOn(key) && !isReservedProp(key) || // force hydrate v-bind with .prop modifiers
key[0] === "." || isCustomElement) {
patchProp(el, key, null, props[key], void 0, parentComponent);
}
}
}
}
let vnodeHooks;
if (vnodeHooks = props && props.onVnodeBeforeMount) {
invokeVNodeHook(vnodeHooks, parentComponent, vnode);
}
if (dirs) {
invokeDirectiveHook(vnode, null, parentComponent, "beforeMount");
}
if ((vnodeHooks = props && props.onVnodeMounted) || dirs || needCallTransitionHooks) {
queueEffectWithSuspense(() => {
vnodeHooks && invokeVNodeHook(vnodeHooks, parentComponent, vnode);
needCallTransitionHooks && transition.enter(el);
dirs && invokeDirectiveHook(vnode, null, parentComponent, "mounted");
}, parentSuspense);
}
}
return el.nextSibling;
};
const hydrateChildren = (node, parentVNode, container, parentComponent, parentSuspense, slotScopeIds, optimized) => {
optimized = optimized || !!parentVNode.dynamicChildren;
const children = parentVNode.children;
const l = children.length;
let hasWarned = false;
for (let i = 0; i < l; i++) {
const vnode = optimized ? children[i] : children[i] = normalizeVNode(children[i]);
const isText = vnode.type === Text;
if (node) {
if (isText && !optimized) {
if (i + 1 < l && normalizeVNode(children[i + 1]).type === Text) {
insert(
createText(
node.data.slice(vnode.children.length)
),
container,
nextSibling(node)
);
node.data = vnode.children;
}
}
node = hydrateNode(
node,
vnode,
parentComponent,
parentSuspense,
slotScopeIds,
optimized
);
} else if (isText && !vnode.children) {
insert(vnode.el = createText(""), container);
} else {
if (!isMismatchAllowed(container, 1 /* CHILDREN */)) {
if (!hasWarned) {
warn$1(
`Hydration children mismatch on`,
container,
`
Server rendered element contains fewer child nodes than client vdom.`
);
hasWarned = true;
}
logMismatchError();
}
patch(
null,
vnode,
container,
null,
parentComponent,
parentSuspense,
getContainerType(container),
slotScopeIds
);
}
}
return node;
};
const hydrateFragment = (node, vnode, parentComponent, parentSuspense, slotScopeIds, optimized) => {
const { slotScopeIds: fragmentSlotScopeIds } = vnode;
if (fragmentSlotScopeIds) {
slotScopeIds = slotScopeIds ? slotScopeIds.concat(fragmentSlotScopeIds) : fragmentSlotScopeIds;
}
const container = parentNode(node);
const next = hydrateChildren(
nextSibling(node),
vnode,
container,
parentComponent,
parentSuspense,
slotScopeIds,
optimized
);
if (next && isComment(next) && next.data === "]") {
return nextSibling(vnode.anchor = next);
} else {
logMismatchError();
insert(vnode.anchor = createComment(`]`), container, next);
return next;
}
};
const handleMismatch = (node, vnode, parentComponent, parentSuspense, slotScopeIds, isFragment) => {
if (!isMismatchAllowed(node.parentElement, 1 /* CHILDREN */)) {
warn$1(
`Hydration node mismatch:
- rendered on server:`,
node,
node.nodeType === 3 ? `(text)` : isComment(node) && node.data === "[" ? `(start of fragment)` : ``,
`
- expected on client:`,
vnode.type
);
logMismatchError();
}
vnode.el = null;
if (isFragment) {
const end = locateClosingAnchor(node);
while (true) {
const next2 = nextSibling(node);
if (next2 && next2 !== end) {
remove(next2);
} else {
break;
}
}
}
const next = nextSibling(node);
const container = parentNode(node);
remove(node);
patch(
null,
vnode,
container,
next,
parentComponent,
parentSuspense,
getContainerType(container),
slotScopeIds
);
return next;
};
const locateClosingAnchor = (node, open = "[", close = "]") => {
let match = 0;
while (node) {
node = nextSibling(node);
if (node && isComment(node)) {
if (node.data === open) match++;
if (node.data === close) {
if (match === 0) {
return nextSibling(node);
} else {
match--;
}
}
}
}
return node;
};
const replaceNode = (newNode, oldNode, parentComponent) => {
const parentNode2 = oldNode.parentNode;
if (parentNode2) {
parentNode2.replaceChild(newNode, oldNode);
}
let parent = parentComponent;
while (parent) {
if (parent.vnode.el === oldNode) {
parent.vnode.el = parent.subTree.el = newNode;
}
parent = parent.parent;
}
};
const isTemplateNode = (node) => {
return node.nodeType === 1 && node.tagName === "TEMPLATE";
};
return [hydrate, hydrateNode];
}
function propHasMismatch(el, key, clientValue, vnode, instance) {
let mismatchType;
let mismatchKey;
let actual;
let expected;
if (key === "class") {
actual = el.getAttribute("class");
expected = normalizeClass(clientValue);
if (!isSetEqual(toClassSet(actual || ""), toClassSet(expected))) {
mismatchType = 2 /* CLASS */;
mismatchKey = `class`;
}
} else if (key === "style") {
actual = el.getAttribute("style") || "";
expected = isString(clientValue) ? clientValue : stringifyStyle(normalizeStyle(clientValue));
const actualMap = toStyleMap(actual);
const expectedMap = toStyleMap(expected);
if (vnode.dirs) {
for (const { dir, value } of vnode.dirs) {
if (dir.name === "show" && !value) {
expectedMap.set("display", "none");
}
}
}
if (instance) {
resolveCssVars(instance, vnode, expectedMap);
}
if (!isMapEqual(actualMap, expectedMap)) {
mismatchType = 3 /* STYLE */;
mismatchKey = "style";
}
} else if (el instanceof SVGElement && isKnownSvgAttr(key) || el instanceof HTMLElement && (isBooleanAttr(key) || isKnownHtmlAttr(key))) {
if (isBooleanAttr(key)) {
actual = el.hasAttribute(key);
expected = includeBooleanAttr(clientValue);
} else if (clientValue == null) {
actual = el.hasAttribute(key);
expected = false;
} else {
if (el.hasAttribute(key)) {
actual = el.getAttribute(key);
} else if (key === "value" && el.tagName === "TEXTAREA") {
actual = el.value;
} else {
actual = false;
}
expected = isRenderableAttrValue(clientValue) ? String(clientValue) : false;
}
if (actual !== expected) {
mismatchType = 4 /* ATTRIBUTE */;
mismatchKey = key;
}
}
if (mismatchType != null && !isMismatchAllowed(el, mismatchType)) {
const format = (v) => v === false ? `(not rendered)` : `${mismatchKey}="${v}"`;
const preSegment = `Hydration ${MismatchTypeString[mismatchType]} mismatch on`;
const postSegment = `
- rendered on server: ${format(actual)}
- expected on client: ${format(expected)}
Note: this mismatch is check-only. The DOM will not be rectified in production due to performance overhead.
You should fix the source of the mismatch.`;
{
warn$1(preSegment, el, postSegment);
}
return true;
}
return false;
}
function toClassSet(str) {
return new Set(str.trim().split(/\s+/));
}
function isSetEqual(a, b) {
if (a.size !== b.size) {
return false;
}
for (const s of a) {
if (!b.has(s)) {
return false;
}
}
return true;
}
function toStyleMap(str) {
const styleMap = /* @__PURE__ */ new Map();
for (const item of str.split(";")) {
let [key, value] = item.split(":");
key = key.trim();
value = value && value.trim();
if (key && value) {
styleMap.set(key, value);
}
}
return styleMap;
}
function isMapEqual(a, b) {
if (a.size !== b.size) {
return false;
}
for (const [key, value] of a) {
if (value !== b.get(key)) {
return false;
}
}
return true;
}
function resolveCssVars(instance, vnode, expectedMap) {
const root = instance.subTree;
if (instance.getCssVars && (vnode === root || root && root.type === Fragment && root.children.includes(vnode))) {
const cssVars = instance.getCssVars();
for (const key in cssVars) {
expectedMap.set(
`--${getEscapedCssVarName(key)}`,
String(cssVars[key])
);
}
}
if (vnode === root && instance.parent) {
resolveCssVars(instance.parent, instance.vnode, expectedMap);
}
}
const allowMismatchAttr = "data-allow-mismatch";
const MismatchTypeString = {
[0 /* TEXT */]: "text",
[1 /* CHILDREN */]: "children",
[2 /* CLASS */]: "class",
[3 /* STYLE */]: "style",
[4 /* ATTRIBUTE */]: "attribute"
};
function isMismatchAllowed(el, allowedType) {
if (allowedType === 0 /* TEXT */ || allowedType === 1 /* CHILDREN */) {
while (el && !el.hasAttribute(allowMismatchAttr)) {
el = el.parentElement;
}
}
const allowedAttr = el && el.getAttribute(allowMismatchAttr);
if (allowedAttr == null) {
return false;
} else if (allowedAttr === "") {
return true;
} else {
const list = allowedAttr.split(",");
if (allowedType === 0 /* TEXT */ && list.includes("children")) {
return true;
}
return allowedAttr.split(",").includes(MismatchTypeString[allowedType]);
}
}
const hydrateOnIdle = (timeout = 1e4) => (hydrate) => {
const id = requestIdleCallback(hydrate, { timeout });
return () => cancelIdleCallback(id);
};
function elementIsVisibleInViewport(el) {
const { top, left, bottom, right } = el.getBoundingClientRect();
const { innerHeight, innerWidth } = window;
return (top > 0 && top < innerHeight || bottom > 0 && bottom < innerHeight) && (left > 0 && left < innerWidth || right > 0 && right < innerWidth);
}
const hydrateOnVisible = (opts) => (hydrate, forEach) => {
const ob = new IntersectionObserver((entries) => {
for (const e of entries) {
if (!e.isIntersecting) continue;
ob.disconnect();
hydrate();
break;
}
}, opts);
forEach((el) => {
if (!(el instanceof Element)) return;
if (elementIsVisibleInViewport(el)) {
hydrate();
ob.disconnect();
return false;
}
ob.observe(el);
});
return () => ob.disconnect();
};
const hydrateOnMediaQuery = (query) => (hydrate) => {
if (query) {
const mql = matchMedia(query);
if (mql.matches) {
hydrate();
} else {
mql.addEventListener("change", hydrate, { once: true });
return () => mql.removeEventListener("change", hydrate);
}
}
};
const hydrateOnInteraction = (interactions = []) => (hydrate, forEach) => {
if (isString(interactions)) interactions = [interactions];
let hasHydrated = false;
const doHydrate = (e) => {
if (!hasHydrated) {
hasHydrated = true;
teardown();
hydrate();
e.target.dispatchEvent(new e.constructor(e.type, e));
}
};
const teardown = () => {
forEach((el) => {
for (const i of interactions) {
el.removeEventListener(i, doHydrate);
}
});
};
forEach((el) => {
for (const i of interactions) {
el.addEventListener(i, doHydrate, { once: true });
}
});
return teardown;
};
function forEachElement(node, cb) {
if (isComment(node) && node.data === "[") {
let depth = 1;
let next = node.nextSibling;
while (next) {
if (next.nodeType === 1) {
const result = cb(next);
if (result === false) {
break;
}
} else if (isComment(next)) {
if (next.data === "]") {
if (--depth === 0) break;
} else if (next.data === "[") {
depth++;
}
}
next = next.nextSibling;
}
} else {
cb(node);
}
}
const isAsyncWrapper = (i) => !!i.type.__asyncLoader;
/*! #__NO_SIDE_EFFECTS__ */
// @__NO_SIDE_EFFECTS__
function defineAsyncComponent(source) {
if (isFunction(source)) {
source = { loader: source };
}
const {
loader,
loadingComponent,
errorComponent,
delay = 200,
hydrate: hydrateStrategy,
timeout,
// undefined = never times out
suspensible = true,
onError: userOnError
} = source;
let pendingRequest = null;
let resolvedComp;
let retries = 0;
const retry = () => {
retries++;
pendingRequest = null;
return load();
};
const load = () => {
let thisRequest;
return pendingRequest || (thisRequest = pendingRequest = loader().catch((err) => {
err = err instanceof Error ? err : new Error(String(err));
if (userOnError) {
return new Promise((resolve, reject) => {
const userRetry = () => resolve(retry());
const userFail = () => reject(err);
userOnError(err, userRetry, userFail, retries + 1);
});
} else {
throw err;
}
}).then((comp) => {
if (thisRequest !== pendingRequest && pendingRequest) {
return pendingRequest;
}
if (!comp) {
warn$1(
`Async component loader resolved to undefined. If you are using retry(), make sure to return its return value.`
);
}
if (comp && (comp.__esModule || comp[Symbol.toStringTag] === "Module")) {
comp = comp.default;
}
if (comp && !isObject(comp) && !isFunction(comp)) {
throw new Error(`Invalid async component load result: ${comp}`);
}
resolvedComp = comp;
return comp;
}));
};
return defineComponent({
name: "AsyncComponentWrapper",
__asyncLoader: load,
__asyncHydrate(el, instance, hydrate) {
const doHydrate = hydrateStrategy ? () => {
const teardown = hydrateStrategy(
hydrate,
(cb) => forEachElement(el, cb)
);
if (teardown) {
(instance.bum || (instance.bum = [])).push(teardown);
}
} : hydrate;
if (resolvedComp) {
doHydrate();
} else {
load().then(() => !instance.isUnmounted && doHydrate());
}
},
get __asyncResolved() {
return resolvedComp;
},
setup() {
const instance = currentInstance;
markAsyncBoundary(instance);
if (resolvedComp) {
return () => createInnerComp(resolvedComp, instance);
}
const onError = (err) => {
pendingRequest = null;
handleError(
err,
instance,
13,
!errorComponent
);
};
if (suspensible && instance.suspense || isInSSRComponentSetup) {
return load().then((comp) => {
return () => createInnerComp(comp, instance);
}).catch((err) => {
onError(err);
return () => errorComponent ? createVNode(errorComponent, {
error: err
}) : null;
});
}
const loaded = ref(false);
const error = ref();
const delayed = ref(!!delay);
if (delay) {
setTimeout(() => {
delayed.value = false;
}, delay);
}
if (timeout != null) {
setTimeout(() => {
if (!loaded.value && !error.value) {
const err = new Error(
`Async component timed out after ${timeout}ms.`
);
onError(err);
error.value = err;
}
}, timeout);
}
load().then(() => {
loaded.value = true;
if (instance.parent && isKeepAlive(instance.parent.vnode)) {
instance.parent.update();
}
}).catch((err) => {
onError(err);
error.value = err;
});
return () => {
if (loaded.value && resolvedComp) {
return createInnerComp(resolvedComp, instance);
} else if (error.value && errorComponent) {
return createVNode(errorComponent, {
error: error.value
});
} else if (loadingComponent && !delayed.value) {
return createVNode(loadingComponent);
}
};
}
});
}
function createInnerComp(comp, parent) {
const { ref: ref2, props, children, ce } = parent.vnode;
const vnode = createVNode(comp, props, children);
vnode.ref = ref2;
vnode.ce = ce;
delete parent.vnode.ce;
return vnode;
}
const isKeepAlive = (vnode) => vnode.type.__isKeepAlive;
const KeepAliveImpl = {
name: `KeepAlive`,
// Marker for special handling inside the renderer. We are not using a ===
// check directly on KeepAlive in the renderer, because importing it directly
// would prevent it from being tree-shaken.
__isKeepAlive: true,
props: {
include: [String, RegExp, Array],
exclude: [String, RegExp, Array],
max: [String, Number]
},
setup(props, { slots }) {
const instance = getCurrentInstance();
const sharedContext = instance.ctx;
if (!sharedContext.renderer) {
return () => {
const children = slots.default && slots.default();
return children && children.length === 1 ? children[0] : children;
};
}
const cache = /* @__PURE__ */ new Map();
const keys = /* @__PURE__ */ new Set();
let current = null;
{
instance.__v_cache = cache;
}
const parentSuspense = instance.suspense;
const {
renderer: {
p: patch,
m: move,
um: _unmount,
o: { createElement }
}
} = sharedContext;
const storageContainer = createElement("div");
sharedContext.activate = (vnode, container, anchor, namespace, optimized) => {
const instance2 = vnode.component;
move(vnode, container, anchor, 0, parentSuspense);
patch(
instance2.vnode,
vnode,
container,
anchor,
instance2,
parentSuspense,
namespace,
vnode.slotScopeIds,
optimized
);
queuePostRenderEffect(() => {
instance2.isDeactivated = false;
if (instance2.a) {
invokeArrayFns(instance2.a);
}
const vnodeHook = vnode.props && vnode.props.onVnodeMounted;
if (vnodeHook) {
invokeVNodeHook(vnodeHook, instance2.parent, vnode);
}
}, parentSuspense);
{
devtoolsComponentAdded(instance2);
}
};
sharedContext.deactivate = (vnode) => {
const instance2 = vnode.component;
invalidateMount(instance2.m);
invalidateMount(instance2.a);
move(vnode, storageContainer, null, 1, parentSuspense);
queuePostRenderEffect(() => {
if (instance2.da) {
invokeArrayFns(instance2.da);
}
const vnodeHook = vnode.props && vnode.props.onVnodeUnmounted;
if (vnodeHook) {
invokeVNodeHook(vnodeHook, instance2.parent, vnode);
}
instance2.isDeactivated = true;
}, parentSuspense);
{
devtoolsComponentAdded(instance2);
}
};
function unmount(vnode) {
resetShapeFlag(vnode);
_unmount(vnode, instance, parentSuspense, true);
}
function pruneCache(filter) {
cache.forEach((vnode, key) => {
const name = getComponentName(vnode.type);
if (name && !filter(name)) {
pruneCacheEntry(key);
}
});
}
function pruneCacheEntry(key) {
const cached = cache.get(key);
if (cached && (!current || !isSameVNodeType(cached, current))) {
unmount(cached);
} else if (current) {
resetShapeFlag(current);
}
cache.delete(key);
keys.delete(key);
}
watch(
() => [props.include, props.exclude],
([include, exclude]) => {
include && pruneCache((name) => matches(include, name));
exclude && pruneCache((name) => !matches(exclude, name));
},
// prune post-render after `current` has been updated
{ flush: "post", deep: true }
);
let pendingCacheKey = null;
const cacheSubtree = () => {
if (pendingCacheKey != null) {
if (isSuspense(instance.subTree.type)) {
queuePostRenderEffect(() => {
cache.set(pendingCacheKey, getInnerChild(instance.subTree));
}, instance.subTree.suspense);
} else {
cache.set(pendingCacheKey, getInnerChild(instance.subTree));
}
}
};
onMounted(cacheSubtree);
onUpdated(cacheSubtree);
onBeforeUnmount(() => {
cache.forEach((cached) => {
const { subTree, suspense } = instance;
const vnode = getInnerChild(subTree);
if (cached.type === vnode.type && cached.key === vnode.key) {
resetShapeFlag(vnode);
const da = vnode.component.da;
da && queuePostRenderEffect(da, suspense);
return;
}
unmount(cached);
});
});
return () => {
pendingCacheKey = null;
if (!slots.default) {
return current = null;
}
const children = slots.default();
const rawVNode = children[0];
if (children.length > 1) {
{
warn$1(`KeepAlive should contain exactly one component child.`);
}
current = null;
return children;
} else if (!isVNode(rawVNode) || !(rawVNode.shapeFlag & 4) && !(rawVNode.shapeFlag & 128)) {
current = null;
return rawVNode;
}
let vnode = getInnerChild(rawVNode);
if (vnode.type === Comment) {
current = null;
return vnode;
}
const comp = vnode.type;
const name = getComponentName(
isAsyncWrapper(vnode) ? vnode.type.__asyncResolved || {} : comp
);
const { include, exclude, max } = props;
if (include && (!name || !matches(include, name)) || exclude && name && matches(exclude, name)) {
vnode.shapeFlag &= ~256;
current = vnode;
return rawVNode;
}
const key = vnode.key == null ? comp : vnode.key;
const cachedVNode = cache.get(key);
if (vnode.el) {
vnode = cloneVNode(vnode);
if (rawVNode.shapeFlag & 128) {
rawVNode.ssContent = vnode;
}
}
pendingCacheKey = key;
if (cachedVNode) {
vnode.el = cachedVNode.el;
vnode.component = cachedVNode.component;
if (vnode.transition) {
setTransitionHooks(vnode, vnode.transition);
}
vnode.shapeFlag |= 512;
keys.delete(key);
keys.add(key);
} else {
keys.add(key);
if (max && keys.size > parseInt(max, 10)) {
pruneCacheEntry(keys.values().next().value);
}
}
vnode.shapeFlag |= 256;
current = vnode;
return isSuspense(rawVNode.type) ? rawVNode : vnode;
};
}
};
const KeepAlive = KeepAliveImpl;
function matches(pattern, name) {
if (isArray(pattern)) {
return pattern.some((p) => matches(p, name));
} else if (isString(pattern)) {
return pattern.split(",").includes(name);
} else if (isRegExp(pattern)) {
pattern.lastIndex = 0;
return pattern.test(name);
}
return false;
}
function onActivated(hook, target) {
registerKeepAliveHook(hook, "a", target);
}
function onDeactivated(hook, target) {
registerKeepAliveHook(hook, "da", target);
}
function registerKeepAliveHook(hook, type, target = currentInstance) {
const wrappedHook = hook.__wdc || (hook.__wdc = () => {
let current = target;
while (current) {
if (current.isDeactivated) {
return;
}
current = current.parent;
}
return hook();
});
injectHook(type, wrappedHook, target);
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) {
const injected = injectHook(
type,
hook,
keepAliveRoot,
true
/* prepend */
);
onUnmounted(() => {
remove(keepAliveRoot[type], injected);
}, target);
}
function resetShapeFlag(vnode) {
vnode.shapeFlag &= ~256;
vnode.shapeFlag &= ~512;
}
function getInnerChild(vnode) {
return vnode.shapeFlag & 128 ? vnode.ssContent : vnode;
}
function injectHook(type, hook, target = currentInstance, prepend = false) {
if (target) {
const hooks = target[type] || (target[type] = []);
const wrappedHook = hook.__weh || (hook.__weh = (...args) => {
pauseTracking();
const reset = setCurrentInstance(target);
const res = callWithAsyncErrorHandling(hook, target, type, args);
reset();
resetTracking();
return res;
});
if (prepend) {
hooks.unshift(wrappedHook);
} else {
hooks.push(wrappedHook);
}
return wrappedHook;
} else {
const apiName = toHandlerKey(ErrorTypeStrings$1[type].replace(/ hook$/, ""));
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) => {
if (!isInSSRComponentSetup || lifecycle === "sp") {
injectHook(lifecycle, (...args) => hook(...args), target);
}
};
const onBeforeMount = createHook("bm");
const onMounted = createHook("m");
const onBeforeUpdate = createHook(
"bu"
);
const onUpdated = createHook("u");
const onBeforeUnmount = createHook(
"bum"
);
const onUnmounted = createHook("um");
const onServerPrefetch = createHook(
"sp"
);
const onRenderTriggered = createHook("rtg");
const onRenderTracked = createHook("rtc");
function onErrorCaptured(hook, target = currentInstance) {
injectHook("ec", hook, target);
}
const COMPONENTS = "components";
const DIRECTIVES = "directives";
function resolveComponent(name, maybeSelfReference) {
return resolveAsset(COMPONENTS, name, true, maybeSelfReference) || name;
}
const NULL_DYNAMIC_COMPONENT = Symbol.for("v-ndc");
function resolveDynamicComponent(component) {
if (isString(component)) {
return resolveAsset(COMPONENTS, component, false) || component;
} else {
return component || NULL_DYNAMIC_COMPONENT;
}
}
function resolveDirective(name) {
return resolveAsset(DIRECTIVES, name);
}
function resolveAsset(type, name, warnMissing = true, maybeSelfReference = false) {
const instance = currentRenderingInstance || currentInstance;
if (instance) {
const Component = instance.type;
if (type === COMPONENTS) {
const selfName = getComponentName(
Component,
false
);
if (selfName && (selfName === name || selfName === camelize(name) || selfName === capitalize(camelize(name)))) {
return Component;
}
}
const res = (
// local registration
// check instance[type] first which is resolved for options API
resolve(instance[type] || Component[type], name) || // global registration
resolve(instance.appContext[type], name)
);
if (!res && maybeSelfReference) {
return Component;
}
if (warnMissing && !res) {
const extra = type === COMPONENTS ? `
If this is a native custom element, make sure to exclude it from component resolution via compilerOptions.isCustomElement.` : ``;
warn$1(`Failed to resolve ${type.slice(0, -1)}: ${name}${extra}`);
}
return res;
} else {
warn$1(
`resolve${capitalize(type.slice(0, -1))} can only be used in render() or setup().`
);
}
}
function resolve(registry, name) {
return registry && (registry[name] || registry[camelize(name)] || registry[capitalize(camelize(name))]);
}
function renderList(source, renderItem, cache, index) {
let ret;
const cached = cache && cache[index];
const sourceIsArray = isArray(source);
if (sourceIsArray || isString(source)) {
const sourceIsReactiveArray = sourceIsArray && isReactive(source);
let needsWrap = false;
if (sourceIsReactiveArray) {
needsWrap = !isShallow(source);
source = shallowReadArray(source);
}
ret = new Array(source.length);
for (let i = 0, l = source.length; i < l; i++) {
ret[i] = renderItem(
needsWrap ? toReactive(source[i]) : source[i],
i,
void 0,
cached && cached[i]
);
}
} else if (typeof source === "number") {
if (!Number.isInteger(source)) {
warn$1(`The v-for range expect an integer value but got ${source}.`);
}
ret = new Array(source);
for (let i = 0; i < source; i++) {
ret[i] = renderItem(i + 1, i, void 0, cached && cached[i]);
}
} else if (isObject(source)) {
if (source[Symbol.iterator]) {
ret = Array.from(
source,
(item, i) => renderItem(item, i, void 0, cached && cached[i])
);
} else {
const keys = Object.keys(source);
ret = new Array(keys.length);
for (let i = 0, l = keys.length; i < l; i++) {
const key = keys[i];
ret[i] = renderItem(source[key], key, i, cached && cached[i]);
}
}
} else {
ret = [];
}
if (cache) {
cache[index] = ret;
}
return ret;
}
function createSlots(slots, dynamicSlots) {
for (let i = 0; i < dynamicSlots.length; i++) {
const slot = dynamicSlots[i];
if (isArray(slot)) {
for (let j = 0; j < slot.length; j++) {
slots[slot[j].name] = slot[j].fn;
}
} else if (slot) {
slots[slot.name] = slot.key ? (...args) => {
const res = slot.fn(...args);
if (res) res.key = slot.key;
return res;
} : slot.fn;
}
}
return slots;
}
function renderSlot(slots, name, props = {}, fallback, noSlotted) {
if (currentRenderingInstance.ce || currentRenderingInstance.parent && isAsyncWrapper(currentRenderingInstance.parent) && currentRenderingInstance.parent.ce) {
if (name !== "default") props.name = name;
return openBlock(), createBlock(
Fragment,
null,
[createVNode("slot", props, fallback && fallback())],
64
);
}
let slot = slots[name];
if (slot && slot.length > 1) {
warn$1(
`SSR-optimized slot function detected in a non-SSR-optimized render function. You need to mark this component with $dynamic-slots in the parent template.`
);
slot = () => [];
}
if (slot && slot._c) {
slot._d = false;
}
openBlock();
const validSlotContent = slot && ensureValidVNode(slot(props));
const rendered = createBlock(
Fragment,
{
key: (props.key || // slot content array of a dynamic conditional slot may have a branch
// key attached in the `createSlots` helper, respect that
validSlotContent && validSlotContent.key || `_${name}`) + // #7256 force differentiate fallback content from actual content
(!validSlotContent && fallback ? "_fb" : "")
},
validSlotContent || (fallback ? fallback() : []),
validSlotContent && slots._ === 1 ? 64 : -2
);
if (!noSlotted && rendered.scopeId) {
rendered.slotScopeIds = [rendered.scopeId + "-s"];
}
if (slot && slot._c) {
slot._d = true;
}
return rendered;
}
function ensureValidVNode(vnodes) {
return vnodes.some((child) => {
if (!isVNode(child)) return true;
if (child.type === Comment) return false;
if (child.type === Fragment && !ensureValidVNode(child.children))
return false;
return true;
}) ? vnodes : null;
}
function toHandlers(obj, preserveCaseIfNecessary) {
const ret = {};
if (!isObject(obj)) {
warn$1(`v-on with no argument expects an object value.`);
return ret;
}
for (const key in obj) {
ret[preserveCaseIfNecessary && /[A-Z]/.test(key) ? `on:${key}` : toHandlerKey(key)] = obj[key];
}
return ret;
}
const getPublicInstance = (i) => {
if (!i) return null;
if (isStatefulComponent(i)) return getComponentPublicInstance(i);
return getPublicInstance(i.parent);
};
const publicPropertiesMap = (
// Move PURE marker to new line to workaround compiler discarding it
// due to type annotation
/* @__PURE__ */ extend(/* @__PURE__ */ 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),
$host: (i) => i.ce,
$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 hasSetupBinding = (state, key) => state !== EMPTY_OBJ && !state.__isScriptSetup && hasOwn(state, key);
const PublicInstanceProxyHandlers = {
get({ _: instance }, key) {
if (key === "__v_skip") {
return true;
}
const { ctx, setupState, data, props, accessCache, type, appContext } = instance;
if (key === "__isVue") {
return true;
}
let normalizedProps;
if (key[0] !== "$") {
const n = accessCache[key];
if (n !== void 0) {
switch (n) {
case 1 /* SETUP */:
return setupState[key];
case 2 /* DATA */:
return data[key];
case 4 /* CONTEXT */:
return ctx[key];
case 3 /* PROPS */:
return props[key];
}
} else if (hasSetupBinding(setupState, key)) {
accessCache[key] = 1 /* SETUP */;
return setupState[key];
} else if (data !== EMPTY_OBJ && hasOwn(data, key)) {
accessCache[key] = 2 /* DATA */;
return data[key];
} else if (
// only cache other properties when instance has declared (thus stable)
// props
(normalizedProps = instance.propsOptions[0]) && hasOwn(normalizedProps, key)
) {
accessCache[key] = 3 /* PROPS */;
return props[key];
} else if (ctx !== EMPTY_OBJ && hasOwn(ctx, key)) {
accessCache[key] = 4 /* CONTEXT */;
return ctx[key];
} else if (shouldCacheAccess) {
accessCache[key] = 0 /* OTHER */;
}
}
const publicGetter = publicPropertiesMap[key];
let cssModule, globalProperties;
if (publicGetter) {
if (key === "$attrs") {
track(instance.attrs, "get", "");
markAttrsAccessed();
} else if (key === "$slots") {
track(instance, "get", key);
}
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)) {
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 (hasSetupBinding(setupState, key)) {
setupState[key] = value;
return true;
} else if (setupState.__isScriptSetup && hasOwn(setupState, key)) {
warn$1(`Cannot mutate 