'use strict'; Object.defineProperty(exports, '__esModule', { value: true }); var shared = require('@vue/shared'); function warn(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.parent = activeEffectScope; if (!detached && activeEffectScope) { this.index = (activeEffectScope.scopes || (activeEffectScope.scopes = [])).push(this) - 1; } } run(fn) { if (this.active) { const currentEffectScope = activeEffectScope; try { activeEffectScope = this; return fn(); } finally { activeEffectScope = currentEffectScope; } } else { warn(`cannot run an inactive effect scope.`); } } /** * This should only be called on non-detached scopes * @internal */ on() { activeEffectScope = this; } /** * This should only be called on non-detached scopes * @internal */ off() { activeEffectScope = this.parent; } stop(fromParent) { if (this.active) { let i, l; for (i = 0, l = this.effects.length; i < l; i++) { this.effects[i].stop(); } for (i = 0, l = this.cleanups.length; i < l; i++) { this.cleanups[i](); } if (this.scopes) { for (i = 0, l = this.scopes.length; i < l; i++) { this.scopes[i].stop(true); } } // nested scope, dereference from parent to avoid memory leaks if (!this.detached && this.parent && !fromParent) { // optimized O(1) removal const last = this.parent.scopes.pop(); if (last && last !== this) { this.parent.scopes[this.index] = last; last.index = this.index; } } this.parent = undefined; this.active = false; } } } function effectScope(detached) { return new EffectScope(detached); } function recordEffectScope(effect, scope = activeEffectScope) { if (scope && scope.active) { scope.effects.push(effect); } } function getCurrentScope() { return activeEffectScope; } function onScopeDispose(fn) { if (activeEffectScope) { activeEffectScope.cleanups.push(fn); } else { warn(`onScopeDispose() is called when there is no active effect scope` + ` to be associated with.`); } } const createDep = (effects) => { const dep = new Set(effects); dep.w = 0; dep.n = 0; return dep; }; const wasTracked = (dep) => (dep.w & trackOpBit) > 0; const newTracked = (dep) => (dep.n & trackOpBit) > 0; const initDepMarkers = ({ deps }) => { if (deps.length) { for (let i = 0; i < deps.length; i++) { deps[i].w |= trackOpBit; // set was tracked } } }; const finalizeDepMarkers = (effect) => { const { deps } = effect; if (deps.length) { let ptr = 0; for (let i = 0; i < deps.length; i++) { const dep = deps[i]; if (wasTracked(dep) && !newTracked(dep)) { dep.delete(effect); } else { deps[ptr++] = dep; } // clear bits dep.w &= ~trackOpBit; dep.n &= ~trackOpBit; } deps.length = ptr; } }; const targetMap = new WeakMap(); // The number of effects currently being tracked recursively. let effectTrackDepth = 0; let trackOpBit = 1; /** * The bitwise track markers support at most 30 levels of recursion. * This value is chosen to enable modern JS engines to use a SMI on all platforms. * When recursion depth is greater, fall back to using a full cleanup. */ const maxMarkerBits = 30; let activeEffect; const ITERATE_KEY = Symbol('iterate' ); const MAP_KEY_ITERATE_KEY = Symbol('Map key iterate' ); class ReactiveEffect { constructor(fn, scheduler = null, scope) { this.fn = fn; this.scheduler = scheduler; this.active = true; this.deps = []; this.parent = undefined; recordEffectScope(this, scope); } run() { if (!this.active) { return this.fn(); } let parent = activeEffect; let lastShouldTrack = shouldTrack; while (parent) { if (parent === this) { return; } parent = parent.parent; } try { this.parent = activeEffect; activeEffect = this; shouldTrack = true; trackOpBit = 1 << ++effectTrackDepth; if (effectTrackDepth <= maxMarkerBits) { initDepMarkers(this); } else { cleanupEffect(this); } return this.fn(); } finally { if (effectTrackDepth <= maxMarkerBits) { finalizeDepMarkers(this); } trackOpBit = 1 << --effectTrackDepth; activeEffect = this.parent; shouldTrack = lastShouldTrack; this.parent = undefined; if (this.deferStop) { this.stop(); } } } stop() { // stopped while running itself - defer the cleanup if (activeEffect === this) { this.deferStop = true; } else if (this.active) { cleanupEffect(this); if (this.onStop) { this.onStop(); } this.active = false; } } } function cleanupEffect(effect) { const { deps } = effect; if (deps.length) { for (let i = 0; i < deps.length; i++) { deps[i].delete(effect); } deps.length = 0; } } function effect(fn, options) { if (fn.effect) { fn = fn.effect.fn; } const _effect = new ReactiveEffect(fn); if (options) { shared.extend(_effect, options); if (options.scope) recordEffectScope(_effect, options.scope); } if (!options || !options.lazy) { _effect.run(); } const runner = _effect.run.bind(_effect); runner.effect = _effect; return runner; } function stop(runner) { runner.effect.stop(); } let shouldTrack = true; const trackStack = []; function pauseTracking() { trackStack.push(shouldTrack); shouldTrack = false; } function enableTracking() { trackStack.push(shouldTrack); shouldTrack = true; } function resetTracking() { const last = trackStack.pop(); shouldTrack = last === undefined ? true : last; } function track(target, type, key) { if (shouldTrack && activeEffect) { let depsMap = targetMap.get(target); if (!depsMap) { targetMap.set(target, (depsMap = new Map())); } let dep = depsMap.get(key); if (!dep) { depsMap.set(key, (dep = createDep())); } const eventInfo = { effect: activeEffect, target, type, key } ; trackEffects(dep, eventInfo); } } function trackEffects(dep, debuggerEventExtraInfo) { let shouldTrack = false; if (effectTrackDepth <= maxMarkerBits) { if (!newTracked(dep)) { dep.n |= trackOpBit; // set newly tracked shouldTrack = !wasTracked(dep); } } else { // Full cleanup mode. shouldTrack = !dep.has(activeEffect); } if (shouldTrack) { dep.add(activeEffect); activeEffect.deps.push(dep); if (activeEffect.onTrack) { activeEffect.onTrack({ effect: activeEffect, ...debuggerEventExtraInfo }); } } } function trigger(target, type, key, newValue, oldValue, oldTarget) { const depsMap = targetMap.get(target); if (!depsMap) { // never been tracked return; } let deps = []; if (type === "clear" /* TriggerOpTypes.CLEAR */) { // collection being cleared // trigger all effects for target deps = [...depsMap.values()]; } else if (key === 'length' && shared.isArray(target)) { const newLength = shared.toNumber(newValue); depsMap.forEach((dep, key) => { if (key === 'length' || key >= newLength) { deps.push(dep); } }); } else { // schedule runs for SET | ADD | DELETE if (key !== void 0) { deps.push(depsMap.get(key)); } // also run for iteration key on ADD | DELETE | Map.SET switch (type) { case "add" /* TriggerOpTypes.ADD */: if (!shared.isArray(target)) { deps.push(depsMap.get(ITERATE_KEY)); if (shared.isMap(target)) { deps.push(depsMap.get(MAP_KEY_ITERATE_KEY)); } } else if (shared.isIntegerKey(key)) { // new index added to array -> length changes deps.push(depsMap.get('length')); } break; case "delete" /* TriggerOpTypes.DELETE */: if (!shared.isArray(target)) { deps.push(depsMap.get(ITERATE_KEY)); if (shared.isMap(target)) { deps.push(depsMap.get(MAP_KEY_ITERATE_KEY)); } } break; case "set" /* TriggerOpTypes.SET */: if (shared.isMap(target)) { deps.push(depsMap.get(ITERATE_KEY)); } break; } } const eventInfo = { target, type, key, newValue, oldValue, oldTarget } ; if (deps.length === 1) { if (deps[0]) { { triggerEffects(deps[0], eventInfo); } } } else { const effects = []; for (const dep of deps) { if (dep) { effects.push(...dep); } } { triggerEffects(createDep(effects), eventInfo); } } } function triggerEffects(dep, debuggerEventExtraInfo) { // spread into array for stabilization const effects = shared.isArray(dep) ? dep : [...dep]; for (const effect of effects) { if (effect.computed) { triggerEffect(effect, debuggerEventExtraInfo); } } for (const effect of effects) { if (!effect.computed) { triggerEffect(effect, debuggerEventExtraInfo); } } } function triggerEffect(effect, debuggerEventExtraInfo) { if (effect !== activeEffect || effect.allowRecurse) { if (effect.onTrigger) { effect.onTrigger(shared.extend({ effect }, debuggerEventExtraInfo)); } if (effect.scheduler) { effect.scheduler(); } else { effect.run(); } } } const isNonTrackableKeys = /*#__PURE__*/ shared.makeMap(`__proto__,__v_isRef,__isVue`); const builtInSymbols = new Set( /*#__PURE__*/ Object.getOwnPropertyNames(Symbol) // ios10.x Object.getOwnPropertyNames(Symbol) can enumerate 'arguments' and 'caller' // but accessing them on Symbol leads to TypeError because Symbol is a strict mode // function .filter(key => key !== 'arguments' && key !== 'caller') .map(key => Symbol[key]) .filter(shared.isSymbol)); const get = /*#__PURE__*/ createGetter(); const shallowGet = /*#__PURE__*/ createGetter(false, true); const readonlyGet = /*#__PURE__*/ createGetter(true); const shallowReadonlyGet = /*#__PURE__*/ createGetter(true, true); const arrayInstrumentations = /*#__PURE__*/ createArrayInstrumentations(); function createArrayInstrumentations() { const instrumentations = {}; ['includes', 'indexOf', 'lastIndexOf'].forEach(key => { instrumentations[key] = function (...args) { const arr = toRaw(this); for (let i = 0, l = this.length; i < l; i++) { track(arr, "get" /* TrackOpTypes.GET */, i + ''); } // we run the method using the original args first (which may be reactive) const res = arr[key](...args); if (res === -1 || res === false) { // if that didn't work, run it again using raw values. return arr[key](...args.map(toRaw)); } else { return res; } }; }); ['push', 'pop', 'shift', 'unshift', 'splice'].forEach(key => { instrumentations[key] = function (...args) { pauseTracking(); const res = toRaw(this)[key].apply(this, args); resetTracking(); return res; }; }); return instrumentations; } function createGetter(isReadonly = false, shallow = false) { return function get(target, key, receiver) { if (key === "__v_isReactive" /* ReactiveFlags.IS_REACTIVE */) { return !isReadonly; } else if (key === "__v_isReadonly" /* ReactiveFlags.IS_READONLY */) { return isReadonly; } else if (key === "__v_isShallow" /* ReactiveFlags.IS_SHALLOW */) { return shallow; } else if (key === "__v_raw" /* ReactiveFlags.RAW */ && receiver === (isReadonly ? shallow ? shallowReadonlyMap : readonlyMap : shallow ? shallowReactiveMap : reactiveMap).get(target)) { return target; } const targetIsArray = shared.isArray(target); if (!isReadonly && targetIsArray && shared.hasOwn(arrayInstrumentations, key)) { return Reflect.get(arrayInstrumentations, key, receiver); } const res = Reflect.get(target, key, receiver); if (shared.isSymbol(key) ? builtInSymbols.has(key) : isNonTrackableKeys(key)) { return res; } if (!isReadonly) { track(target, "get" /* TrackOpTypes.GET */, key); } if (shallow) { return res; } if (isRef(res)) { // ref unwrapping - skip unwrap for Array + integer key. return targetIsArray && shared.isIntegerKey(key) ? res : res.value; } if (shared.isObject(res)) { // Convert returned value into a proxy as well. we do the isObject check // here to avoid invalid value warning. Also need to lazy access readonly // and reactive here to avoid circular dependency. return isReadonly ? readonly(res) : reactive(res); } return res; }; } const set = /*#__PURE__*/ createSetter(); const shallowSet = /*#__PURE__*/ createSetter(true); function createSetter(shallow = false) { return function set(target, key, value, receiver) { let oldValue = target[key]; if (isReadonly(oldValue) && isRef(oldValue) && !isRef(value)) { return false; } if (!shallow) { if (!isShallow(value) && !isReadonly(value)) { oldValue = toRaw(oldValue); value = toRaw(value); } if (!shared.isArray(target) && isRef(oldValue) && !isRef(value)) { oldValue.value = value; return true; } } const hadKey = shared.isArray(target) && shared.isIntegerKey(key) ? Number(key) < target.length : shared.hasOwn(target, key); const result = Reflect.set(target, key, value, receiver); // don't trigger if target is something up in the prototype chain of original if (target === toRaw(receiver)) { if (!hadKey) { trigger(target, "add" /* TriggerOpTypes.ADD */, key, value); } else if (shared.hasChanged(value, oldValue)) { trigger(target, "set" /* TriggerOpTypes.SET */, key, value, oldValue); } } return result; }; } function deleteProperty(target, key) { const hadKey = shared.hasOwn(target, key); const oldValue = target[key]; const result = Reflect.deleteProperty(target, key); if (result && hadKey) { trigger(target, "delete" /* TriggerOpTypes.DELETE */, key, undefined, oldValue); } return result; } function has(target, key) { const result = Reflect.has(target, key); if (!shared.isSymbol(key) || !builtInSymbols.has(key)) { track(target, "has" /* TrackOpTypes.HAS */, key); } return result; } function ownKeys(target) { track(target, "iterate" /* TrackOpTypes.ITERATE */, shared.isArray(target) ? 'length' : ITERATE_KEY); return Reflect.ownKeys(target); } const mutableHandlers = { get, set, deleteProperty, has, ownKeys }; const readonlyHandlers = { get: readonlyGet, set(target, key) { { warn(`Set operation on key "${String(key)}" failed: target is readonly.`, target); } return true; }, deleteProperty(target, key) { { warn(`Delete operation on key "${String(key)}" failed: target is readonly.`, target); } return true; } }; const shallowReactiveHandlers = /*#__PURE__*/ shared.extend({}, mutableHandlers, { get: shallowGet, set: shallowSet }); // Props handlers are special in the sense that it should not unwrap top-level // refs (in order to allow refs to be explicitly passed down), but should // retain the reactivity of the normal readonly object. const shallowReadonlyHandlers = /*#__PURE__*/ shared.extend({}, readonlyHandlers, { get: shallowReadonlyGet }); const toShallow = (value) => value; const getProto = (v) => Reflect.getPrototypeOf(v); function get$1(target, key, isReadonly = false, isShallow = false) { // #1772: readonly(reactive(Map)) should return readonly + reactive version // of the value target = target["__v_raw" /* ReactiveFlags.RAW */]; const rawTarget = toRaw(target); const rawKey = toRaw(key); if (!isReadonly) { if (key !== rawKey) { track(rawTarget, "get" /* TrackOpTypes.GET */, key); } track(rawTarget, "get" /* TrackOpTypes.GET */, rawKey); } const { has } = getProto(rawTarget); const wrap = isShallow ? toShallow : isReadonly ? toReadonly : toReactive; if (has.call(rawTarget, key)) { return wrap(target.get(key)); } else if (has.call(rawTarget, rawKey)) { return wrap(target.get(rawKey)); } else if (target !== rawTarget) { // #3602 readonly(reactive(Map)) // ensure that the nested reactive `Map` can do tracking for itself target.get(key); } } function has$1(key, isReadonly = false) { const target = this["__v_raw" /* ReactiveFlags.RAW */]; const rawTarget = toRaw(target); const rawKey = toRaw(key); if (!isReadonly) { if (key !== rawKey) { track(rawTarget, "has" /* TrackOpTypes.HAS */, key); } track(rawTarget, "has" /* TrackOpTypes.HAS */, rawKey); } return key === rawKey ? target.has(key) : target.has(key) || target.has(rawKey); } function size(target, isReadonly = false) { target = target["__v_raw" /* ReactiveFlags.RAW */]; !isReadonly && track(toRaw(target), "iterate" /* TrackOpTypes.ITERATE */, ITERATE_KEY); return Reflect.get(target, 'size', target); } function add(value) { value = toRaw(value); const target = toRaw(this); const proto = getProto(target); const hadKey = proto.has.call(target, value); if (!hadKey) { target.add(value); trigger(target, "add" /* TriggerOpTypes.ADD */, value, value); } return this; } function set$1(key, value) { value = toRaw(value); const target = toRaw(this); const { has, get } = getProto(target); let hadKey = has.call(target, key); if (!hadKey) { key = toRaw(key); hadKey = has.call(target, key); } else { checkIdentityKeys(target, has, key); } const oldValue = get.call(target, key); target.set(key, value); if (!hadKey) { trigger(target, "add" /* TriggerOpTypes.ADD */, key, value); } else if (shared.hasChanged(value, oldValue)) { trigger(target, "set" /* TriggerOpTypes.SET */, key, value, oldValue); } return this; } function deleteEntry(key) { const target = toRaw(this); const { has, get } = getProto(target); let hadKey = has.call(target, key); if (!hadKey) { key = toRaw(key); hadKey = has.call(target, key); } else { checkIdentityKeys(target, has, key); } const oldValue = get ? get.call(target, key) : undefined; // forward the operation before queueing reactions const result = target.delete(key); if (hadKey) { trigger(target, "delete" /* TriggerOpTypes.DELETE */, key, undefined, oldValue); } return result; } function clear() { const target = toRaw(this); const hadItems = target.size !== 0; const oldTarget = shared.isMap(target) ? new Map(target) : new Set(target) ; // forward the operation before queueing reactions const result = target.clear(); if (hadItems) { trigger(target, "clear" /* TriggerOpTypes.CLEAR */, undefined, undefined, oldTarget); } return result; } function createForEach(isReadonly, isShallow) { return function forEach(callback, thisArg) { const observed = this; const target = observed["__v_raw" /* ReactiveFlags.RAW */]; const rawTarget = toRaw(target); const wrap = isShallow ? toShallow : isReadonly ? toReadonly : toReactive; !isReadonly && track(rawTarget, "iterate" /* TrackOpTypes.ITERATE */, ITERATE_KEY); return target.forEach((value, key) => { // important: make sure the callback is // 1. invoked with the reactive map as `this` and 3rd arg // 2. the value received should be a corresponding reactive/readonly. return callback.call(thisArg, wrap(value), wrap(key), observed); }); }; } function createIterableMethod(method, isReadonly, isShallow) { return function (...args) { const target = this["__v_raw" /* ReactiveFlags.RAW */]; const rawTarget = toRaw(target); const targetIsMap = shared.isMap(rawTarget); const isPair = method === 'entries' || (method === Symbol.iterator && targetIsMap); const isKeyOnly = method === 'keys' && targetIsMap; const innerIterator = target[method](...args); const wrap = isShallow ? toShallow : isReadonly ? toReadonly : toReactive; !isReadonly && track(rawTarget, "iterate" /* TrackOpTypes.ITERATE */, isKeyOnly ? MAP_KEY_ITERATE_KEY : ITERATE_KEY); // return a wrapped iterator which returns observed versions of the // values emitted from the real iterator return { // iterator protocol next() { const { value, done } = innerIterator.next(); return done ? { value, done } : { value: isPair ? [wrap(value[0]), wrap(value[1])] : wrap(value), done }; }, // iterable protocol [Symbol.iterator]() { return this; } }; }; } function createReadonlyMethod(type) { return function (...args) { { const key = args[0] ? `on key "${args[0]}" ` : ``; console.warn(`${shared.capitalize(type)} operation ${key}failed: target is readonly.`, toRaw(this)); } return type === "delete" /* TriggerOpTypes.DELETE */ ? false : this; }; } function createInstrumentations() { const mutableInstrumentations = { get(key) { return get$1(this, key); }, get size() { return size(this); }, has: has$1, add, set: set$1, delete: deleteEntry, clear, forEach: createForEach(false, false) }; const shallowInstrumentations = { get(key) { return get$1(this, key, false, true); }, get size() { return size(this); }, has: has$1, add, set: set$1, delete: deleteEntry, clear, forEach: createForEach(false, true) }; const readonlyInstrumentations = { get(key) { return get$1(this, key, true); }, get size() { return size(this, true); }, has(key) { return has$1.call(this, key, true); }, add: createReadonlyMethod("add" /* TriggerOpTypes.ADD */), set: createReadonlyMethod("set" /* TriggerOpTypes.SET */), delete: createReadonlyMethod("delete" /* TriggerOpTypes.DELETE */), clear: createReadonlyMethod("clear" /* TriggerOpTypes.CLEAR */), forEach: createForEach(true, false) }; const shallowReadonlyInstrumentations = { get(key) { return get$1(this, key, true, true); }, get size() { return size(this, true); }, has(key) { return has$1.call(this, key, true); }, add: createReadonlyMethod("add" /* TriggerOpTypes.ADD */), set: createReadonlyMethod("set" /* TriggerOpTypes.SET */), delete: createReadonlyMethod("delete" /* TriggerOpTypes.DELETE */), clear: createReadonlyMethod("clear" /* TriggerOpTypes.CLEAR */), forEach: createForEach(true, true) }; const iteratorMethods = ['keys', 'values', 'entries', Symbol.iterator]; iteratorMethods.forEach(method => { mutableInstrumentations[method] = createIterableMethod(method, false, false); readonlyInstrumentations[method] = createIterableMethod(method, true, false); shallowInstrumentations[method] = createIterableMethod(method, false, true); shallowReadonlyInstrumentations[method] = createIterableMethod(method, true, true); }); return [ mutableInstrumentations, readonlyInstrumentations, shallowInstrumentations, shallowReadonlyInstrumentations ]; } const [mutableInstrumentations, readonlyInstrumentations, shallowInstrumentations, shallowReadonlyInstrumentations] = /* #__PURE__*/ createInstrumentations(); function createInstrumentationGetter(isReadonly, shallow) { const instrumentations = shallow ? isReadonly ? shallowReadonlyInstrumentations : shallowInstrumentations : isReadonly ? readonlyInstrumentations : mutableInstrumentations; return (target, key, receiver) => { if (key === "__v_isReactive" /* ReactiveFlags.IS_REACTIVE */) { return !isReadonly; } else if (key === "__v_isReadonly" /* ReactiveFlags.IS_READONLY */) { return isReadonly; } else if (key === "__v_raw" /* ReactiveFlags.RAW */) { return target; } return Reflect.get(shared.hasOwn(instrumentations, key) && key in target ? instrumentations : target, key, receiver); }; } const mutableCollectionHandlers = { get: /*#__PURE__*/ createInstrumentationGetter(false, false) }; const shallowCollectionHandlers = { get: /*#__PURE__*/ createInstrumentationGetter(false, true) }; const readonlyCollectionHandlers = { get: /*#__PURE__*/ createInstrumentationGetter(true, false) }; const shallowReadonlyCollectionHandlers = { get: /*#__PURE__*/ createInstrumentationGetter(true, true) }; function checkIdentityKeys(target, has, key) { const rawKey = toRaw(key); if (rawKey !== key && has.call(target, rawKey)) { const type = shared.toRawType(target); console.warn(`Reactive ${type} contains both the raw and reactive ` + `versions of the same object${type === `Map` ? ` as keys` : ``}, ` + `which can lead to inconsistencies. ` + `Avoid differentiating between the raw and reactive versions ` + `of an object and only use the reactive version if possible.`); } } const reactiveMap = new WeakMap(); const shallowReactiveMap = new WeakMap(); const readonlyMap = new WeakMap(); const shallowReadonlyMap = new WeakMap(); function targetTypeMap(rawType) { switch (rawType) { case 'Object': case 'Array': return 1 /* TargetType.COMMON */; case 'Map': case 'Set': case 'WeakMap': case 'WeakSet': return 2 /* TargetType.COLLECTION */; default: return 0 /* TargetType.INVALID */; } } function getTargetType(value) { return value["__v_skip" /* ReactiveFlags.SKIP */] || !Object.isExtensible(value) ? 0 /* TargetType.INVALID */ : targetTypeMap(shared.toRawType(value)); } function reactive(target) { // if trying to observe a readonly proxy, return the readonly version. if (isReadonly(target)) { return target; } return createReactiveObject(target, false, mutableHandlers, mutableCollectionHandlers, reactiveMap); } /** * Return a shallowly-reactive copy of the original object, where only the root * level properties are reactive. It also does not auto-unwrap refs (even at the * root level). */ function shallowReactive(target) { return createReactiveObject(target, false, shallowReactiveHandlers, shallowCollectionHandlers, shallowReactiveMap); } /** * Creates a readonly copy of the original object. Note the returned copy is not * made reactive, but `readonly` can be called on an already reactive object. */ function readonly(target) { return createReactiveObject(target, true, readonlyHandlers, readonlyCollectionHandlers, readonlyMap); } /** * Returns a reactive-copy of the original object, where only the root level * properties are readonly, and does NOT unwrap refs nor recursively convert * returned properties. * This is used for creating the props proxy object for stateful components. */ function shallowReadonly(target) { return createReactiveObject(target, true, shallowReadonlyHandlers, shallowReadonlyCollectionHandlers, shallowReadonlyMap); } function createReactiveObject(target, isReadonly, baseHandlers, collectionHandlers, proxyMap) { if (!shared.isObject(target)) { { console.warn(`value cannot be made reactive: ${String(target)}`); } return target; } // target is already a Proxy, return it. // exception: calling readonly() on a reactive object if (target["__v_raw" /* ReactiveFlags.RAW */] && !(isReadonly && target["__v_isReactive" /* ReactiveFlags.IS_REACTIVE */])) { return target; } // target already has corresponding Proxy const existingProxy = proxyMap.get(target); if (existingProxy) { return existingProxy; } // only specific value types can be observed. const targetType = getTargetType(target); if (targetType === 0 /* TargetType.INVALID */) { return target; } const proxy = new Proxy(target, targetType === 2 /* TargetType.COLLECTION */ ? collectionHandlers : baseHandlers); proxyMap.set(target, proxy); return proxy; } function isReactive(value) { if (isReadonly(value)) { return isReactive(value["__v_raw" /* ReactiveFlags.RAW */]); } return !!(value && value["__v_isReactive" /* ReactiveFlags.IS_REACTIVE */]); } function isReadonly(value) { return !!(value && value["__v_isReadonly" /* ReactiveFlags.IS_READONLY */]); } function isShallow(value) { return !!(value && value["__v_isShallow" /* ReactiveFlags.IS_SHALLOW */]); } function isProxy(value) { return isReactive(value) || isReadonly(value); } function toRaw(observed) { const raw = observed && observed["__v_raw" /* ReactiveFlags.RAW */]; return raw ? toRaw(raw) : observed; } function markRaw(value) { shared.def(value, "__v_skip" /* ReactiveFlags.SKIP */, true); return value; } const toReactive = (value) => shared.isObject(value) ? reactive(value) : value; const toReadonly = (value) => shared.isObject(value) ? readonly(value) : value; function trackRefValue(ref) { if (shouldTrack && activeEffect) { ref = toRaw(ref); { trackEffects(ref.dep || (ref.dep = createDep()), { target: ref, type: "get" /* TrackOpTypes.GET */, key: 'value' }); } } } function triggerRefValue(ref, newVal) { ref = toRaw(ref); if (ref.dep) { { triggerEffects(ref.dep, { target: ref, type: "set" /* TriggerOpTypes.SET */, key: 'value', newValue: newVal }); } } } function isRef(r) { return !!(r && r.__v_isRef === true); } 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, __v_isShallow) { this.__v_isShallow = __v_isShallow; this.dep = undefined; this.__v_isRef = true; this._rawValue = __v_isShallow ? value : toRaw(value); this._value = __v_isShallow ? value : toReactive(value); } get value() { trackRefValue(this); return this._value; } set value(newVal) { const useDirectValue = this.__v_isShallow || isShallow(newVal) || isReadonly(newVal); newVal = useDirectValue ? newVal : toRaw(newVal); if (shared.hasChanged(newVal, this._rawValue)) { this._rawValue = newVal; this._value = useDirectValue ? newVal : toReactive(newVal); triggerRefValue(this, newVal); } } } function triggerRef(ref) { triggerRefValue(ref, ref.value ); } function unref(ref) { return isRef(ref) ? ref.value : ref; } const shallowUnwrapHandlers = { get: (target, key, receiver) => unref(Reflect.get(target, key, receiver)), set: (target, key, value, receiver) => { const oldValue = target[key]; if (isRef(oldValue) && !isRef(value)) { oldValue.value = value; return true; } else { return Reflect.set(target, key, value, receiver); } } }; function proxyRefs(objectWithRefs) { return isReactive(objectWithRefs) ? objectWithRefs : new Proxy(objectWithRefs, shallowUnwrapHandlers); } class CustomRefImpl { constructor(factory) { this.dep = undefined; this.__v_isRef = true; const { get, set } = factory(() => trackRefValue(this), () => triggerRefValue(this)); this._get = get; this._set = set; } get value() { return this._get(); } set value(newVal) { this._set(newVal); } } function customRef(factory) { return new CustomRefImpl(factory); } function toRefs(object) { if (!isProxy(object)) { console.warn(`toRefs() expects a reactive object but received a plain one.`); } const ret = shared.isArray(object) ? new Array(object.length) : {}; for (const key in object) { ret[key] = toRef(object, key); } return ret; } class ObjectRefImpl { constructor(_object, _key, _defaultValue) { this._object = _object; this._key = _key; this._defaultValue = _defaultValue; this.__v_isRef = true; } get value() { const val = this._object[this._key]; return val === undefined ? this._defaultValue : val; } set value(newVal) { this._object[this._key] = newVal; } } function toRef(object, key, defaultValue) { const val = object[key]; return isRef(val) ? val : new ObjectRefImpl(object, key, defaultValue); } var _a; class ComputedRefImpl { constructor(getter, _setter, isReadonly, isSSR) { this._setter = _setter; this.dep = undefined; this.__v_isRef = true; this[_a] = false; this._dirty = true; this.effect = new ReactiveEffect(getter, () => { if (!this._dirty) { this._dirty = true; triggerRefValue(this); } }); this.effect.computed = this; this.effect.active = this._cacheable = !isSSR; this["__v_isReadonly" /* ReactiveFlags.IS_READONLY */] = isReadonly; } get value() { // the computed ref may get wrapped by other proxies e.g. readonly() #3376 const self = toRaw(this); trackRefValue(self); if (self._dirty || !self._cacheable) { self._dirty = false; self._value = self.effect.run(); } return self._value; } set value(newValue) { this._setter(newValue); } } _a = "__v_isReadonly" /* ReactiveFlags.IS_READONLY */; function computed(getterOrOptions, debugOptions, isSSR = false) { let getter; let setter; const onlyGetter = shared.isFunction(getterOrOptions); if (onlyGetter) { getter = getterOrOptions; setter = () => { console.warn('Write operation failed: computed value is readonly'); } ; } else { getter = getterOrOptions.get; setter = getterOrOptions.set; } const cRef = new ComputedRefImpl(getter, setter, onlyGetter || !setter, isSSR); if (debugOptions && !isSSR) { cRef.effect.onTrack = debugOptions.onTrack; cRef.effect.onTrigger = debugOptions.onTrigger; } return cRef; } var _a$1; const tick = /*#__PURE__*/ Promise.resolve(); const queue = []; let queued = false; const scheduler = (fn) => { queue.push(fn); if (!queued) { queued = true; tick.then(flush); } }; const flush = () => { for (let i = 0; i < queue.length; i++) { queue[i](); } queue.length = 0; queued = false; }; class DeferredComputedRefImpl { constructor(getter) { this.dep = undefined; this._dirty = true; this.__v_isRef = true; this[_a$1] = true; let compareTarget; let hasCompareTarget = false; let scheduled = false; this.effect = new ReactiveEffect(getter, (computedTrigger) => { if (this.dep) { if (computedTrigger) { compareTarget = this._value; hasCompareTarget = true; } else if (!scheduled) { const valueToCompare = hasCompareTarget ? compareTarget : this._value; scheduled = true; hasCompareTarget = false; scheduler(() => { if (this.effect.active && this._get() !== valueToCompare) { triggerRefValue(this); } scheduled = false; }); } // chained upstream computeds are notified synchronously to ensure // value invalidation in case of sync access; normal effects are // deferred to be triggered in scheduler. for (const e of this.dep) { if (e.computed instanceof DeferredComputedRefImpl) { e.scheduler(true /* computedTrigger */); } } } this._dirty = true; }); this.effect.computed = this; } _get() { if (this._dirty) { this._dirty = false; return (this._value = this.effect.run()); } return this._value; } get value() { trackRefValue(this); // the computed ref may get wrapped by other proxies e.g. readonly() #3376 return toRaw(this)._get(); } } _a$1 = "__v_isReadonly" /* ReactiveFlags.IS_READONLY */; function deferredComputed(getter) { return new DeferredComputedRefImpl(getter); } exports.EffectScope = EffectScope; exports.ITERATE_KEY = ITERATE_KEY; exports.ReactiveEffect = ReactiveEffect; exports.computed = computed; exports.customRef = customRef; exports.deferredComputed = deferredComputed; exports.effect = effect; exports.effectScope = effectScope; exports.enableTracking = enableTracking; exports.getCurrentScope = getCurrentScope; exports.isProxy = isProxy; exports.isReactive = isReactive; exports.isReadonly = isReadonly; exports.isRef = isRef; exports.isShallow = isShallow; exports.markRaw = markRaw; exports.onScopeDispose = onScopeDispose; exports.pauseTracking = pauseTracking; exports.proxyRefs = proxyRefs; exports.reactive = reactive; exports.readonly = readonly; exports.ref = ref; exports.resetTracking = resetTracking; exports.shallowReactive = shallowReactive; exports.shallowReadonly = shallowReadonly; exports.shallowRef = shallowRef; exports.stop = stop; exports.toRaw = toRaw; exports.toRef = toRef; exports.toRefs = toRefs; exports.track = track; exports.trigger = trigger; exports.triggerRef = triggerRef; exports.unref = unref;