import { ComponentInternalInstance, Data, Component, SetupContext, RenderFunction, SFCInternalOptions } from './component' import { isFunction, extend, isString, isObject, isArray, EMPTY_OBJ, NOOP } from '@vue/shared' import { computed } from './apiReactivity' import { watch, WatchOptions, WatchCallback } from './apiWatch' import { provide, inject } from './apiInject' import { onBeforeMount, onMounted, onBeforeUpdate, onUpdated, onErrorCaptured, onRenderTracked, onBeforeUnmount, onUnmounted, onActivated, onDeactivated, onRenderTriggered, DebuggerHook, ErrorCapturedHook } from './apiLifecycle' import { reactive, ComputedGetter, WritableComputedOptions } from '@vue/reactivity' import { ComponentObjectPropsOptions, ExtractPropTypes } from './componentProps' import { Directive } from './directives' import { ComponentPublicInstance } from './componentProxy' import { warn } from './warning' export interface ComponentOptionsBase< Props, RawBindings, D, C extends ComputedOptions, M extends MethodOptions > extends LegacyOptions, SFCInternalOptions { setup?: ( this: void, props: Props, ctx: SetupContext ) => RawBindings | RenderFunction | void name?: string template?: string | object // can be a direct DOM node // Note: we are intentionally using the signature-less `Function` type here // since any type with signature will cause the whole inference to fail when // the return expression contains reference to `this`. // Luckily `render()` doesn't need any arguments nor does it care about return // type. render?: Function components?: Record< string, Component | { new (): ComponentPublicInstance } > directives?: Record inheritAttrs?: boolean // type-only differentiator to separate OptionWithoutProps from a constructor // type returned by defineComponent() or FunctionalComponent call?: never // type-only differentiators for built-in Vnode types __isFragment?: never __isPortal?: never __isSuspense?: never } export type ComponentOptionsWithoutProps< Props = {}, RawBindings = {}, D = {}, C extends ComputedOptions = {}, M extends MethodOptions = {} > = ComponentOptionsBase, RawBindings, D, C, M> & { props?: undefined } & ThisType>> export type ComponentOptionsWithArrayProps< PropNames extends string = string, RawBindings = {}, D = {}, C extends ComputedOptions = {}, M extends MethodOptions = {}, Props = Readonly<{ [key in PropNames]?: any }> > = ComponentOptionsBase & { props: PropNames[] } & ThisType> export type ComponentOptionsWithObjectProps< PropsOptions = ComponentObjectPropsOptions, RawBindings = {}, D = {}, C extends ComputedOptions = {}, M extends MethodOptions = {}, Props = Readonly> > = ComponentOptionsBase & { props: PropsOptions } & ThisType> export type ComponentOptions = | ComponentOptionsWithoutProps | ComponentOptionsWithObjectProps | ComponentOptionsWithArrayProps // TODO legacy component definition also supports constructors with .options type LegacyComponent = ComponentOptions export type ComputedOptions = Record< string, ComputedGetter | WritableComputedOptions > export interface MethodOptions { [key: string]: Function } export type ExtractComputedReturns = { [key in keyof T]: T[key] extends { get: Function } ? ReturnType : ReturnType } type WatchOptionItem = | string | WatchCallback | { handler: WatchCallback } & WatchOptions type ComponentWatchOptionItem = WatchOptionItem | WatchOptionItem[] type ComponentWatchOptions = Record type ComponentInjectOptions = | string[] | Record< string | symbol, string | symbol | { from: string | symbol; default?: unknown } > export interface LegacyOptions< Props, RawBindings, D, C extends ComputedOptions, M extends MethodOptions > { el?: any // state // Limitation: we cannot expose RawBindings on the `this` context for data // since that leads to some sort of circular inference and breaks ThisType // for the entire component. data?: D | ((this: ComponentPublicInstance) => D) computed?: C methods?: M watch?: ComponentWatchOptions provide?: Data | Function inject?: ComponentInjectOptions // composition mixins?: LegacyComponent[] extends?: LegacyComponent // lifecycle beforeCreate?(): void created?(): void beforeMount?(): void mounted?(): void beforeUpdate?(): void updated?(): void activated?(): void deactivated?(): void beforeUnmount?(): void unmounted?(): void renderTracked?: DebuggerHook renderTriggered?: DebuggerHook errorCaptured?: ErrorCapturedHook } const enum OptionTypes { PROPS = 'Props', DATA = 'Data', COMPUTED = 'Computed', METHODS = 'Methods', INJECT = 'Inject' } function createDuplicateChecker() { const cache = Object.create(null) return (type: OptionTypes, key: string) => { if (cache[key]) { warn(`${type} property "${key}" is already defined in ${cache[key]}.`) } else { cache[key] = type } } } export function applyOptions( instance: ComponentInternalInstance, options: ComponentOptions, asMixin: boolean = false ) { const renderContext = instance.renderContext === EMPTY_OBJ ? (instance.renderContext = reactive({})) : instance.renderContext const ctx = instance.proxy! const { // composition mixins, extends: extendsOptions, // state props: propsOptions, data: dataOptions, computed: computedOptions, methods, watch: watchOptions, provide: provideOptions, inject: injectOptions, // assets components, directives, // lifecycle beforeMount, mounted, beforeUpdate, updated, activated, deactivated, beforeUnmount, unmounted, renderTracked, renderTriggered, errorCaptured } = options const globalMixins = instance.appContext.mixins // call it only during dev const checkDuplicateProperties = __DEV__ ? createDuplicateChecker() : null // applyOptions is called non-as-mixin once per instance if (!asMixin) { callSyncHook('beforeCreate', options, ctx, globalMixins) // global mixins are applied first applyMixins(instance, globalMixins) } // extending a base component... if (extendsOptions) { applyOptions(instance, extendsOptions, true) } // local mixins if (mixins) { applyMixins(instance, mixins) } if (__DEV__ && propsOptions) { for (const key in propsOptions) { checkDuplicateProperties!(OptionTypes.PROPS, key) } } // state options if (dataOptions) { const data = isFunction(dataOptions) ? dataOptions.call(ctx) : dataOptions if (!isObject(data)) { __DEV__ && warn(`data() should return an object.`) } else if (instance.data === EMPTY_OBJ) { if (__DEV__) { for (const key in data) { checkDuplicateProperties!(OptionTypes.DATA, key) } } instance.data = reactive(data) } else { // existing data: this is a mixin or extends. extend(instance.data, data) } } if (computedOptions) { for (const key in computedOptions) { const opt = (computedOptions as ComputedOptions)[key] __DEV__ && checkDuplicateProperties!(OptionTypes.COMPUTED, key) if (isFunction(opt)) { renderContext[key] = computed(opt.bind(ctx)) } else { const { get, set } = opt if (isFunction(get)) { renderContext[key] = computed({ get: get.bind(ctx), set: isFunction(set) ? set.bind(ctx) : __DEV__ ? () => { warn( `Computed property "${key}" was assigned to but it has no setter.` ) } : NOOP }) } else if (__DEV__) { warn(`Computed property "${key}" has no getter.`) } } } } if (methods) { for (const key in methods) { const methodHandler = (methods as MethodOptions)[key] if (isFunction(methodHandler)) { __DEV__ && checkDuplicateProperties!(OptionTypes.METHODS, key) renderContext[key] = methodHandler.bind(ctx) } else if (__DEV__) { warn( `Method "${key}" has type "${typeof methodHandler}" in the component definition. ` + `Did you reference the function correctly?` ) } } } if (watchOptions) { for (const key in watchOptions) { createWatcher(watchOptions[key], renderContext, ctx, key) } } if (provideOptions) { const provides = isFunction(provideOptions) ? provideOptions.call(ctx) : provideOptions for (const key in provides) { provide(key, provides[key]) } } if (injectOptions) { if (isArray(injectOptions)) { for (let i = 0; i < injectOptions.length; i++) { const key = injectOptions[i] __DEV__ && checkDuplicateProperties!(OptionTypes.INJECT, key) renderContext[key] = inject(key) } } else { for (const key in injectOptions) { __DEV__ && checkDuplicateProperties!(OptionTypes.INJECT, key) const opt = injectOptions[key] if (isObject(opt)) { renderContext[key] = inject(opt.from, opt.default) } else { renderContext[key] = inject(opt) } } } } // asset options if (components) { extend(instance.components, components) } if (directives) { extend(instance.directives, directives) } // lifecycle options if (!asMixin) { callSyncHook('created', options, ctx, globalMixins) } if (beforeMount) { onBeforeMount(beforeMount.bind(ctx)) } if (mounted) { onMounted(mounted.bind(ctx)) } if (beforeUpdate) { onBeforeUpdate(beforeUpdate.bind(ctx)) } if (updated) { onUpdated(updated.bind(ctx)) } if (activated) { onActivated(activated.bind(ctx)) } if (deactivated) { onDeactivated(deactivated.bind(ctx)) } if (errorCaptured) { onErrorCaptured(errorCaptured.bind(ctx)) } if (renderTracked) { onRenderTracked(renderTracked.bind(ctx)) } if (renderTriggered) { onRenderTriggered(renderTriggered.bind(ctx)) } if (beforeUnmount) { onBeforeUnmount(beforeUnmount.bind(ctx)) } if (unmounted) { onUnmounted(unmounted.bind(ctx)) } } function callSyncHook( name: 'beforeCreate' | 'created', options: ComponentOptions, ctx: ComponentPublicInstance, globalMixins: ComponentOptions[] ) { callHookFromMixins(name, globalMixins, ctx) const baseHook = options.extends && options.extends[name] if (baseHook) { baseHook.call(ctx) } const mixins = options.mixins if (mixins) { callHookFromMixins(name, mixins, ctx) } const selfHook = options[name] if (selfHook) { selfHook.call(ctx) } } function callHookFromMixins( name: 'beforeCreate' | 'created', mixins: ComponentOptions[], ctx: ComponentPublicInstance ) { for (let i = 0; i < mixins.length; i++) { const fn = mixins[i][name] if (fn) { fn.call(ctx) } } } function applyMixins( instance: ComponentInternalInstance, mixins: ComponentOptions[] ) { for (let i = 0; i < mixins.length; i++) { applyOptions(instance, mixins[i], true) } } function createWatcher( raw: ComponentWatchOptionItem, renderContext: Data, ctx: ComponentPublicInstance, key: string ) { const getter = () => (ctx as Data)[key] if (isString(raw)) { const handler = renderContext[raw] if (isFunction(handler)) { watch(getter, handler as WatchCallback) } else if (__DEV__) { warn(`Invalid watch handler specified by key "${raw}"`, handler) } } else if (isFunction(raw)) { watch(getter, raw.bind(ctx)) } else if (isObject(raw)) { if (isArray(raw)) { raw.forEach(r => createWatcher(r, renderContext, ctx, key)) } else { watch(getter, raw.handler.bind(ctx), raw) } } else if (__DEV__) { warn(`Invalid watch option: "${key}"`) } }