警告:我做了一个翻译 pr, 还没有 merge,所以我先开一个分支来看了。
WARNING:I did a translation pr, but not merged to origin repo yet, so pre-build a branch to read ahead.
"这个指南是一个最新的摘要,记录了关于如何用 TypeScript 以函数式风格使用 React(以及相关生态)最重要的模式和示例。它会使你的代码在从具体实现中进行类型推导时绝对是类型安全的,这样就能减少来自过度类型声明的信息噪音,并更容易写出易于长期维护的正确类型声明。"
觉得有帮助?想要更多更新?
🎉 现在更新支持到 TypeScript v3.7 🎉
🚀 _升级到 [email protected]
🚀
- 完全的类型安全(支持
--strict
模式),并且在向应用的下游代码传递时,不会丢失类型信息(比如:缺少类型断言或用any
来强行使用) - 使用高级 TypeScript 语言特性(诸如类型推论和控制流分析)来消除类型冗余、使类型声明简明扼要
- 使用专门的 TypeScript 补充库 来减少类型代码的重复性和复杂度
- typesafe-actions - 为 Redux / Flux 架构中 "action-creators" 创造的类型安全实用工具集
- utility-types - TypeScript 常用泛型集合,能够补充 TS 自带的映射类型和别名 - 把它当成类型复用的 lodash。
- react-redux-typescript-scripts - 开发者工具配置文件,可用于遵循本指南的项目
- Todo-App playground: Codesandbox
- React, Redux, TypeScript - RealWorld App: Github | Demo
查看位于 /playground
文件夹中的 Playground 项目。它包含本指南所有的代码示例的源文件。它们都已使用最新版本的 TypeScript 和第三方类型定义包(诸如 @types/react
和 @types/react-redux
)进行了测试,以确保示例是最新的,且没有随着类型定义升级而失效(基于 create-react-app --typescript
)。
我们创建了该 Playground 项目以便你可以简单地克隆到本地,并立即尝试本指南中所有的组件模式。它可以使你无需自己创建复杂的环境配置,直接在真实的项目环境中学习本指南的所有示例。
你能贡献并帮助改进本项目,如果你计划做出贡献,请查看我们的贡献指南:CONTRIBUTING.md
你也能通过赞助 issues 提供帮助。 通过 IssueHunt 平台进行赞助,bug 修复或功能请求之类的 issues 可以更快得到解决。
我强烈建议你赞助自己期待解决的 issue,以便增加它的优先级并吸引贡献者解决。
🌟 - 新内容及更新板块
- 用 TypeScript 写 React & Redux - 完全指南
- 安装
- React - 类型定义速查表
React.FC<Props>
|React.FunctionComponent<Props>
React.Component<Props, State>
React.ComponentType<Props>
React.ComponentProps<typeof XXX>
React.ReactElement
|JSX.Element
React.ReactNode
React.CSSProperties
React.HTMLProps<HTMLXXXElement>
React.ReactEventHandler<HTMLXXXElement>
React.XXXEvent<HTMLXXXElement>
- React - 类型模式
- Redux - 类型模式
- 配置和开发者工具
- 食谱
npm i -D @types/react @types/react-dom @types/react-redux
"react" - @types/react
"react-dom" - @types/react-dom
"redux" - (types included with npm package)*
"react-redux" - @types/react-redux
*提示: 本指南的类型系统适用于 Redux >= v4.x.x。如果想用于 Redux v3.x.x 请查看 这个配置)
表示函数组件的类型
const MyComponent: React.FC<Props> = ...
表示 class 组件的类型
class MyComponent extends React.Component<Props, State> { ...
表示 (React.FC | React.Component) 集合的类型 - 用于 HOC
const withState = <P extends WrappedComponentProps>(
WrappedComponent: React.ComponentType<P>,
) => { ...
取得�组件 XXX 的 Props 类型(警告:无法用于静态声明的 default props 以及泛型 props)
type MyComponentProps = React.ComponentProps<typeof MyComponent>;
表示 React 中 Element 概念的类型 - 表示一个原生 DOM 组件(比如 <div />
)或用户自定义的复合组件 (比如 <MyComponent />
)
const elementOnly: React.ReactElement = <div /> || <MyComponent />;
表示任意类型的 React 节点(相当于 ReactElement (包括 Fragments 和 Portals) + 原始 JS 类型)
const elementOrPrimitive: React.ReactNode = 'string' || 0 || false || null || undefined || <div /> || <MyComponent />;
const Component = ({ children: React.ReactNode }) => ...
表示 JSX 中样式对象的类型 - 实现 css-in-js 风格
const styles: React.CSSProperties = { flexDirection: 'row', ...
const element = <div style={styles} ...
表示指定 HTML 元素的类型 - 用于扩展 HTML 元素
const Input: React.FC<Props & React.HTMLProps<HTMLInputElement>> = props => { ... }
<Input about={...} accept={...} alt={...} ... />
表示 event handler 的泛型类型 - 用于声明 event handlers
const handleChange: React.ReactEventHandler<HTMLInputElement> = (ev) => { ... }
<input onChange={handleChange} ... />
表示更多特殊 event。一些常见的 event 例如:ChangeEvent, FormEvent, FocusEvent, KeyboardEvent, MouseEvent, DragEvent, PointerEvent, WheelEvent, TouchEvent
。
const handleChange = (ev: React.MouseEvent<HTMLDivElement>) => { ... }
<div onMouseMove={handleChange} ... />
上一段代码中的 React.MouseEvent<HTMLDivElement>
表示鼠标事件的类型,这个事件挂载在 HTMLDivElement
上。
import * as React from 'react';
type Props = {
label: string;
count: number;
onIncrement: () => void;
};
export const FCCounter: React.FC<Props> = props => {
const { label, count, onIncrement } = props;
const handleIncrement = () => {
onIncrement();
};
return (
<div>
<span>
{label}: {count}
</span>
<button type="button" onClick={handleIncrement}>
{`Increment`}
</button>
</div>
);
};
- 组件的 属性展开
import * as React from 'react';
type Props = {
className?: string;
style?: React.CSSProperties;
};
export const FCSpreadAttributes: React.FC<Props> = props => {
const { children, ...restProps } = props;
return <div {...restProps}>{children}</div>;
};
import * as React from 'react';
type Props = {
label: string;
};
type State = {
count: number;
};
export class ClassCounter extends React.Component<Props, State> {
readonly state: State = {
count: 0,
};
handleIncrement = () => {
this.setState({ count: this.state.count + 1 });
};
render() {
const { handleIncrement } = this;
const { label } = this.props;
const { count } = this.state;
return (
<div>
<span>
{label}: {count}
</span>
<button type="button" onClick={handleIncrement}>
{`Increment`}
</button>
</div>
);
}
}
import * as React from 'react';
type Props = {
label: string;
initialCount: number;
};
type State = {
count: number;
};
export class ClassCounterWithDefaultProps extends React.Component<
Props,
State
> {
static defaultProps = {
initialCount: 0,
};
readonly state: State = {
count: this.props.initialCount,
};
handleIncrement = () => {
this.setState({ count: this.state.count + 1 });
};
render() {
const { handleIncrement } = this;
const { label } = this.props;
const { count } = this.state;
return (
<div>
<span>
{label}: {count}
</span>
<button type="button" onClick={handleIncrement}>
{`Increment`}
</button>
</div>
);
}
}
- 易于生成不同类型的变种组件,同时复用公共逻辑
- 常见的用例是泛型列表组件
import * as React from 'react';
export interface GenericListProps<T> {
items: T[];
itemRenderer: (item: T) => JSX.Element;
}
export class GenericList<T> extends React.Component<GenericListProps<T>, {}> {
render() {
const { items, itemRenderer } = this.props;
return (
<div>
{items.map(itemRenderer)}
</div>
);
}
}
将 children 用作 render prop 的简单组件
import * as React from 'react';
interface NameProviderProps {
children: (state: NameProviderState) => React.ReactNode;
}
interface NameProviderState {
readonly name: string;
}
export class NameProvider extends React.Component<NameProviderProps, NameProviderState> {
readonly state: NameProviderState = { name: 'Piotr' };
render() {
return this.props.children(this.state);
}
}
Mouse
组件的例子来源于 Render Props - React 文档
import * as React from 'react';
export interface MouseProviderProps {
render: (state: MouseProviderState) => React.ReactNode;
}
interface MouseProviderState {
readonly x: number;
readonly y: number;
}
export class MouseProvider extends React.Component<MouseProviderProps, MouseProviderState> {
readonly state: MouseProviderState = { x: 0, y: 0 };
handleMouseMove = (event: React.MouseEvent<HTMLDivElement>) => {
this.setState({
x: event.clientX,
y: event.clientY,
});
};
render() {
return (
<div style={{ height: '100%' }} onMouseMove={this.handleMouseMove}>
{/*
Instead of providing a static representation of what <Mouse> renders,
use the `render` prop to dynamically determine what to render.
*/}
{this.props.render(this.state)}
</div>
);
}
}
https://zh-hans.reactjs.org/docs/higher-order-components.html
给无状态的计数器加上状态
import React from 'react';
import { Diff } from 'utility-types';
// These props will be injected into the base component
interface InjectedProps {
count: number;
onIncrement: () => void;
}
export const withState = <BaseProps extends InjectedProps>(
BaseComponent: React.ComponentType<BaseProps>
) => {
type HocProps = Diff<BaseProps, InjectedProps> & {
// here you can extend hoc with new props
initialCount?: number;
};
type HocState = {
readonly count: number;
};
return class Hoc extends React.Component<HocProps, HocState> {
// Enhance component name for debugging and React-Dev-Tools
static displayName = `withState(${BaseComponent.name})`;
// reference to original wrapped component
static readonly WrappedComponent = BaseComponent;
readonly state: HocState = {
count: Number(this.props.initialCount) || 0,
};
handleIncrement = () => {
this.setState({ count: this.state.count + 1 });
};
render() {
const { ...restProps } = this.props;
const { count } = this.state;
return (
<BaseComponent
count={count} // injected
onIncrement={this.handleIncrement} // injected
{...(restProps as BaseProps)}
/>
);
}
};
};
Click to expand
import * as React from 'react';
import { withState } from '../hoc';
import { FCCounter } from '../components';
const FCCounterWithState = withState(FCCounter);
export default () => <FCCounterWithState label={'FCCounterWithState'} />;
用 componentDidCatch 给任意组件加上错误处理功能
import React from 'react';
const MISSING_ERROR = 'Error was swallowed during propagation.';
export const withErrorBoundary = <BaseProps extends {}>(
BaseComponent: React.ComponentType<BaseProps>
) => {
type HocProps = {
// here you can extend hoc with new props
};
type HocState = {
readonly error: Error | null | undefined;
};
return class Hoc extends React.Component<HocProps, HocState> {
// Enhance component name for debugging and React-Dev-Tools
static displayName = `withErrorBoundary(${BaseComponent.name})`;
// reference to original wrapped component
static readonly WrappedComponent = BaseComponent;
readonly state: HocState = {
error: undefined,
};
componentDidCatch(error: Error | null, info: object) {
this.setState({ error: error || new Error(MISSING_ERROR) });
this.logErrorToCloud(error, info);
}
logErrorToCloud = (error: Error | null, info: object) => {
// TODO: send error report to service provider
};
render() {
const { children, ...restProps } = this.props;
const { error } = this.state;
if (error) {
return <BaseComponent {...(restProps as BaseProps)} />;
}
return children;
}
};
};
Click to expand
import React, {useState} from 'react';
import { withErrorBoundary } from '../hoc';
import { ErrorMessage } from '../components';
const ErrorMessageWithErrorBoundary =
withErrorBoundary(ErrorMessage);
const BrokenComponent = () => {
throw new Error('I\'m broken! Don\'t render me.');
};
const BrokenButton = () => {
const [shouldRenderBrokenComponent, setShouldRenderBrokenComponent] =
useState(false);
if (shouldRenderBrokenComponent) {
return <BrokenComponent />;
}
return (
<button
type="button"
onClick={() => {
setShouldRenderBrokenComponent(true);
}}
>
{`Throw nasty error`}
</button>
);
};
export default () => (
<ErrorMessageWithErrorBoundary>
<BrokenButton />
</ErrorMessageWithErrorBoundary>
);
用 componentDidCatch 给任意组件加上错误处理功能
import { RootState } from 'MyTypes';
import React from 'react';
import { connect } from 'react-redux';
import { Diff } from 'utility-types';
import { countersActions, countersSelectors } from '../features/counters';
// These props will be injected into the base component
interface InjectedProps {
count: number;
onIncrement: () => void;
}
export const withConnectedCount = <BaseProps extends InjectedProps>(
BaseComponent: React.ComponentType<BaseProps>
) => {
type HocProps = Diff<BaseProps, InjectedProps> & {
// here you can extend hoc with new props
initialCount?: number;
};
const mapStateToProps = (state: RootState) => ({
count: countersSelectors.getReduxCounter(state.counters),
});
const dispatchProps = {
onIncrement: countersActions.increment,
};
class Hoc extends React.Component<InjectedProps> {
// Enhance component name for debugging and React-Dev-Tools
static displayName = `withConnectedCount(${BaseComponent.name})`;
// reference to original wrapped component
static readonly WrappedComponent = BaseComponent;
render() {
const { count, onIncrement, ...restProps } = this.props;
return (
<BaseComponent
count={count} // injected
onIncrement={onIncrement} // injected
{...(restProps as BaseProps)}
/>
);
}
}
const ConnectedHoc = connect<
ReturnType<typeof mapStateToProps>,
typeof dispatchProps,
HocProps,
RootState
>(
mapStateToProps,
dispatchProps
)(Hoc);
return ConnectedHoc;
};
Click to expand
import * as React from 'react';
import { withConnectedCount } from '../hoc';
import { FCCounter } from '../components';
const FCCounterWithConnectedCount = withConnectedCount(FCCounter);
export default () => (
<FCCounterWithConnectedCount initialCount={5} label={'FCCounterWithState'} />
);
import Types from 'MyTypes';
import { connect } from 'react-redux';
import { countersActions, countersSelectors } from '../features/counters';
import { FCCounter } from '../components';
const mapStateToProps = (state: Types.RootState) => ({
count: countersSelectors.getReduxCounter(state.counters),
});
const dispatchProps = {
onIncrement: countersActions.increment,
};
export const FCCounterConnected = connect(
mapStateToProps,
dispatchProps
)(FCCounter);
Click to expand
import * as React from 'react';
import { FCCounterConnected } from '.';
export default () => <FCCounterConnected label={'FCCounterConnected'} />;
import Types from 'MyTypes';
import { connect } from 'react-redux';
import { countersActions, countersSelectors } from '../features/counters';
import { FCCounter } from '../components';
type OwnProps = {
initialCount?: number;
};
const mapStateToProps = (state: Types.RootState, ownProps: OwnProps) => ({
count:
countersSelectors.getReduxCounter(state.counters) +
(ownProps.initialCount || 0),
});
const dispatchProps = {
onIncrement: countersActions.increment,
};
export const FCCounterConnectedOwnProps = connect(
mapStateToProps,
dispatchProps
)(FCCounter);
Click to expand
import * as React from 'react';
import { FCCounterConnectedOwnProps } from '.';
export default () => (
<FCCounterConnectedOwnProps
label={'FCCounterConnectedOwnProps'}
initialCount={10}
/>
);
import Types from 'MyTypes';
import { bindActionCreators, Dispatch } from 'redux';
import { connect } from 'react-redux';
import * as React from 'react';
import { countersActions } from '../features/counters';
// Thunk Action
const incrementWithDelay = () => async (dispatch: Dispatch): Promise<void> => {
setTimeout(() => dispatch(countersActions.increment()), 1000);
};
const mapStateToProps = (state: Types.RootState) => ({
count: state.counters.reduxCounter,
});
const mapDispatchToProps = (dispatch: Dispatch<Types.RootAction>) =>
bindActionCreators(
{
onIncrement: incrementWithDelay,
},
dispatch
);
type Props = ReturnType<typeof mapStateToProps> &
ReturnType<typeof mapDispatchToProps> & {
label: string;
};
export const FCCounter: React.FC<Props> = props => {
const { label, count, onIncrement } = props;
const handleIncrement = () => {
// Thunk action is correctly typed as promise
onIncrement().then(() => {
// ...
});
};
return (
<div>
<span>
{label}: {count}
</span>
<button type="button" onClick={handleIncrement}>
{`Increment`}
</button>
</div>
);
};
export const FCCounterConnectedBindActionCreators = connect(
mapStateToProps,
mapDispatchToProps
)(FCCounter);
Click to expand
import * as React from 'react';
import { FCCounterConnectedBindActionCreators } from '.';
export default () => (
<FCCounterConnectedBindActionCreators
label={'FCCounterConnectedBindActionCreators'}
/>
);
import * as React from 'react';
export type Theme = React.CSSProperties;
type Themes = {
dark: Theme;
light: Theme;
};
export const themes: Themes = {
dark: {
color: 'black',
backgroundColor: 'white',
},
light: {
color: 'white',
backgroundColor: 'black',
},
};
export type ThemeContextProps = { theme: Theme; toggleTheme?: () => void };
const ThemeContext = React.createContext<ThemeContextProps>({ theme: themes.light });
export default ThemeContext;
import React from 'react';
import ThemeContext, { themes, Theme } from './theme-context';
import ToggleThemeButton from './theme-consumer';
interface State {
theme: Theme;
}
export class ThemeProvider extends React.Component<{}, State> {
readonly state: State = { theme: themes.light };
toggleTheme = () => {
this.setState(state => ({
theme: state.theme === themes.light ? themes.dark : themes.light,
}));
}
render() {
const { theme } = this.state;
const { toggleTheme } = this;
return (
<ThemeContext.Provider value={{ theme, toggleTheme }}>
<ToggleThemeButton />
</ThemeContext.Provider>
);
}
}
import * as React from 'react';
import ThemeContext from './theme-context';
type Props = {};
export default function ToggleThemeButton(props: Props) {
return (
<ThemeContext.Consumer>
{({ theme, toggleTheme }) => <button style={theme} onClick={toggleTheme} {...props} />}
</ThemeContext.Consumer>
);
}
import * as React from 'react';
import ThemeContext from './theme-context';
type Props = {};
export class ToggleThemeButtonClass extends React.Component<Props> {
static contextType = ThemeContext;
context!: React.ContextType<typeof ThemeContext>;
render() {
const { theme, toggleTheme } = this.context;
return (
<button style={theme} onClick={toggleTheme}>
Toggle Theme
</button>
);
}
}
https://zh-hans.reactjs.org/docs/hooks-reference.html#usestate
import * as React from 'react';
type Props = { initialCount: number };
export default function Counter({initialCount}: Props) {
const [count, setCount] = React.useState(initialCount);
return (
<>
Count: {count}
<button onClick={() => setCount(initialCount)}>Reset</button>
<button onClick={() => setCount(prevCount => prevCount + 1)}>+</button>
<button onClick={() => setCount(prevCount => prevCount - 1)}>-</button>
</>
);
}
用于函数组件的状态管理 Hook (类似 Redux)。
import * as React from 'react';
interface State {
count: number;
}
type Action = { type: 'reset' } | { type: 'increment' } | { type: 'decrement' };
function reducer(state: State, action: Action): State {
switch (action.type) {
case 'increment':
return { count: state.count + 1 };
case 'decrement':
return { count: state.count - 1 };
case 'reset':
return { count: 0 };
default:
throw new Error();
}
}
interface CounterProps {
initialCount: number;
}
function Counter({ initialCount }: CounterProps) {
const [state, dispatch] = React.useReducer(reducer, {
count: initialCount,
});
return (
<>
Count: {state.count}
<button onClick={() => dispatch({ type: 'reset' })}>Reset</button>
<button onClick={() => dispatch({ type: 'increment' })}>+</button>
<button onClick={() => dispatch({ type: 'decrement' })}>-</button>
</>
);
}
export default Counter;
https://zh-hans.reactjs.org/docs/hooks-reference.html#usecontext
import * as React from 'react';
import ThemeContext from '../context/theme-context';
type Props = {};
export default function ThemeToggleButton(props: Props) {
const { theme, toggleTheme } = React.useContext(ThemeContext);
return (
<button onClick={toggleTheme} style={theme} >
Toggle Theme
</button>
);
}
可以作为 import,使用 Redux connect
方法连接组件时,能够确保类型安全性
可以作为 import,用于不同层次中(reducers, sagas 或 redux-observables epics)接收和发送 redux actions
import { StateType, ActionType } from 'typesafe-actions';
declare module 'MyTypes' {
export type Store = StateType<typeof import('./index').default>;
export type RootAction = ActionType<typeof import('./root-action').default>;
export type RootState = StateType<ReturnType<typeof import('./root-reducer').default>>;
}
declare module 'typesafe-actions' {
interface Types {
RootAction: ActionType<typeof import('./root-action').default>;
}
}
当创建 store 实例时,我们不需要编写任何额外的类型,它会通过类型推断自动建立一个类型安全的 Store 实例。
生成的 store 实例中的方法(像
getState
和dispatch
)将支持类型检查,并能够暴露所有的类型错误。
import { RootAction, RootState, Services } from 'MyTypes';
import { createStore, applyMiddleware } from 'redux';
import { createEpicMiddleware } from 'redux-observable';
import { createBrowserHistory } from 'history';
import { routerMiddleware as createRouterMiddleware } from 'connected-react-router';
import { composeEnhancers } from './utils';
import rootReducer from './root-reducer';
import rootEpic from './root-epic';
import services from '../services';
// browser history
export const history = createBrowserHistory();
export const epicMiddleware = createEpicMiddleware<
RootAction,
RootAction,
RootState,
Services
>({
dependencies: services,
});
const routerMiddleware = createRouterMiddleware(history);
// configure middlewares
const middlewares = [epicMiddleware, routerMiddleware];
// compose enhancers
const enhancer = composeEnhancers(applyMiddleware(...middlewares));
// rehydrate state on app start
const initialState = {};
// create store
const store = createStore(rootReducer(history), initialState, enhancer);
epicMiddleware.run(rootEpic);
// export store singleton instance
export default store;
我们将使用成熟的辅助库
typesafe-actions
它被设计成便于使用 TypeScript 来写 Redux。
查看这个进阶教程来学习更多:Typesafe-Actions - Tutorial!
下面的方案用一个简单的工厂函数来自动创建类型安全的 action creators。目的是减少重复的 actions 和 creators 类型声明代码,并减少代码维护工作。生成结果是绝对类型安全的 action-creators 及其 actions。
import { action } from 'typesafe-actions';
import { ADD, INCREMENT } from './constants';
/* SIMPLE API */
export const increment = () => action(INCREMENT);
export const add = (amount: number) => action(ADD, amount);
/* ADVANCED API */
// More flexible allowing to create complex actions more easily
// use can use "action-creator" instance in place of "type constant"
// e.g. case getType(increment): return action.payload;
// This will allow to completely eliminate need for "constants" in your application, more info here:
// https://github.com/piotrwitek/typesafe-actions#constants
import { createAction } from 'typesafe-actions';
import { Todo } from '../todos/models';
export const emptyAction = createAction(INCREMENT)<void>();
export const payloadAction = createAction(ADD)<number>();
export const payloadMetaAction = createAction(ADD)<number, string>();
export const payloadCreatorAction = createAction(
'TOGGLE_TODO',
(todo: Todo) => todo.id
)<string>();
Click to expand
import store from '../../store';
import { countersActions as counter } from '../counters';
// store.dispatch(counter.increment(1)); // Error: Expected 0 arguments, but got 1.
store.dispatch(counter.increment()); // OK
// store.dispatch(counter.add()); // Error: Expected 1 arguments, but got 0.
store.dispatch(counter.add(1)); // OK
用 readonly
修饰符声明 reducer 中 State
的类型,可以获得编译时的不可变性
export type State = {
readonly counter: number;
readonly todos: ReadonlyArray<string>;
};
Readonly 修饰符允许初始化,但不允许重新赋值(编译器会提示错误)
export const initialState: State = {
counter: 0,
}; // OK
initialState.counter = 3; // TS Error: cannot be mutated
这对 JS 中的 数组 很起效,因为用 (push
, pop
, splice
, ...) 这样的赋值方法将会报错,但是 (concat
, map
, slice
,...) 这样的不可变方法依然是允许的。
state.todos.push('Learn about tagged union types') // TS Error: Property 'push' does not exist on type 'ReadonlyArray<string>'
const newTodos = state.todos.concat('Learn about tagged union types') // OK
这意味着 readonly
修饰符在对象的嵌套结构中不会向下传递不变性。你需要标记每个层级的每个属性。(译注:Readonly
是浅比较的)
小贴士: 使用
Readonly
或ReadonlyArray
映射类型
export type State = Readonly<{
counterPairs: ReadonlyArray<Readonly<{
immutableCounter1: number,
immutableCounter2: number,
}>>,
}>;
state.counterPairs[0] = { immutableCounter1: 1, immutableCounter2: 1 }; // TS Error: cannot be mutated
state.counterPairs[0].immutableCounter1 = 1; // TS Error: cannot be mutated
state.counterPairs[0].immutableCounter2 = 1; // TS Error: cannot be mutated
为了解决上述问题,我们可以使用 DeepReadonly
类型(来自 utility-types
)。
import { DeepReadonly } from 'utility-types';
export type State = DeepReadonly<{
containerObject: {
innerValue: number,
numbers: number[],
}
}>;
state.containerObject = { innerValue: 1 }; // TS Error: cannot be mutated
state.containerObject.innerValue = 1; // TS Error: cannot be mutated
state.containerObject.numbers.push(1); // TS Error: cannot use mutator methods
为了理解下一小节,请确保了解 类型推论,基于控制流的类型分析 以及 标记联合类型
import { combineReducers } from 'redux';
import { ActionType } from 'typesafe-actions';
import { Todo, TodosFilter } from './models';
import * as actions from './actions';
import { ADD, CHANGE_FILTER, TOGGLE } from './constants';
export type TodosAction = ActionType<typeof actions>;
export type TodosState = Readonly<{
todos: Todo[];
todosFilter: TodosFilter;
}>;
const initialState: TodosState = {
todos: [],
todosFilter: TodosFilter.All,
};
export default combineReducers<TodosState, TodosAction>({
todos: (state = initialState.todos, action) => {
switch (action.type) {
case ADD:
return [...state, action.payload];
case TOGGLE:
return state.map(item =>
item.id === action.payload
? { ...item, completed: !item.completed }
: item
);
default:
return state;
}
},
todosFilter: (state = initialState.todosFilter, action) => {
switch (action.type) {
case CHANGE_FILTER:
return action.payload;
default:
return state;
}
},
});
请注意,我们不需要在 API 上使用任何泛型类型参数。可以和传统的 reducer 写法进行比较,它们是等价的。
import { combineReducers } from 'redux';
import { createReducer } from 'typesafe-actions';
import { Todo, TodosFilter } from './models';
import { ADD, CHANGE_FILTER, TOGGLE } from './constants';
export type TodosState = Readonly<{
todos: Todo[];
todosFilter: TodosFilter;
}>;
const initialState: TodosState = {
todos: [],
todosFilter: TodosFilter.All,
};
const todos = createReducer(initialState.todos)
.handleType(ADD, (state, action) => [...state, action.payload])
.handleType(TOGGLE, (state, action) =>
state.map(item =>
item.id === action.payload
? { ...item, completed: !item.completed }
: item
)
);
const todosFilter = createReducer(initialState.todosFilter).handleType(
CHANGE_FILTER,
(state, action) => action.payload
);
export default combineReducers({
todos,
todosFilter,
});
import {
todosReducer as reducer,
todosActions as actions,
TodosState,
} from './';
/**
* FIXTURES
*/
const getInitialState = (initial?: Partial<TodosState>) =>
reducer(initial as TodosState, {} as any);
/**
* STORIES
*/
describe('Todos Stories', () => {
describe('initial state', () => {
it('should match a snapshot', () => {
const initialState = getInitialState();
expect(initialState).toMatchSnapshot();
});
});
describe('adding todos', () => {
it('should add a new todo as the first element', () => {
const initialState = getInitialState();
expect(initialState.todos).toHaveLength(0);
const state = reducer(initialState, actions.add('new todo'));
expect(state.todos).toHaveLength(1);
expect(state.todos[0].title).toEqual('new todo');
});
});
describe('toggling completion state', () => {
it('should mark active todo as complete', () => {
const activeTodo = { id: '1', completed: false, title: 'active todo' };
const initialState = getInitialState({ todos: [activeTodo] });
expect(initialState.todos[0].completed).toBeFalsy();
const state1 = reducer(initialState, actions.toggle(activeTodo.id));
expect(state1.todos[0].completed).toBeTruthy();
});
});
});
import { RootAction, RootState, Services } from 'MyTypes';
import { Epic } from 'redux-observable';
import { tap, ignoreElements, filter } from 'rxjs/operators';
import { isOfType } from 'typesafe-actions';
import { todosConstants } from '../todos';
// contrived example!!!
export const logAddAction: Epic<RootAction, RootAction, RootState, Services> = (
action$,
state$,
{ logger }
) =>
action$.pipe(
filter(isOfType(todosConstants.ADD)), // action is narrowed to: { type: "ADD_TODO"; payload: string; }
tap(action => {
logger.log(
`action type must be equal: ${todosConstants.ADD} === ${action.type}`
);
}),
ignoreElements()
);
import { StateObservable, ActionsObservable } from 'redux-observable';
import { RootState, Services, RootAction } from 'MyTypes';
import { Subject } from 'rxjs';
import { add } from './actions';
import { logAddAction } from './epics';
// Simple typesafe mock of all the services, you dont't need to mock anything else
// It is decoupled and reusable for all your tests, just put it in a separate file
const services = {
logger: {
log: jest.fn<Services['logger']['log']>(),
},
localStorage: {
loadState: jest.fn<Services['localStorage']['loadState']>(),
saveState: jest.fn<Services['localStorage']['saveState']>(),
},
};
describe('Todos Epics', () => {
let state$: StateObservable<RootState>;
beforeEach(() => {
state$ = new StateObservable<RootState>(
new Subject<RootState>(),
undefined as any
);
});
describe('logging todos actions', () => {
beforeEach(() => {
services.logger.log.mockClear();
});
it('should call the logger service when adding a new todo', done => {
const addTodoAction = add('new todo');
const action$ = ActionsObservable.of(addTodoAction);
logAddAction(action$, state$, services)
.toPromise()
.then((outputAction: RootAction) => {
expect(services.logger.log).toHaveBeenCalledTimes(1);
expect(services.logger.log).toHaveBeenCalledWith(
'action type must be equal: todos/ADD === todos/ADD'
);
// expect output undefined because we're using "ignoreElements" in epic
expect(outputAction).toEqual(undefined);
done();
});
});
});
});
import { createSelector } from 'reselect';
import { TodosState } from './reducer';
export const getTodos = (state: TodosState) => state.todos;
export const getTodosFilter = (state: TodosState) => state.todosFilter;
export const getFilteredTodos = createSelector(getTodos, getTodosFilter, (todos, todosFilter) => {
switch (todosFilter) {
case 'completed':
return todos.filter(t => t.completed);
case 'active':
return todos.filter(t => !t.completed);
default:
return todos;
}
});
注意:在下面一段代码中,只有关于 connect 类型声明背后概念的简短说明。请查看 Redux 连接组件 章节了解更多更具体的例子
import MyTypes from 'MyTypes';
import { bindActionCreators, Dispatch, ActionCreatorsMapObject } from 'redux';
import { connect } from 'react-redux';
import { countersActions } from '../features/counters';
import { FCCounter } from '../components';
// Type annotation for "state" argument is mandatory to check
// the correct shape of state object and injected props you can also
// extend connected component Props interface by annotating `ownProps` argument
const mapStateToProps = (state: MyTypes.RootState, ownProps: FCCounterProps) => ({
count: state.counters.reduxCounter,
});
// "dispatch" argument needs an annotation to check the correct shape
// of an action object when using dispatch function
const mapDispatchToProps = (dispatch: Dispatch<MyTypes.RootAction>) =>
bindActionCreators({
onIncrement: countersActions.increment,
}, dispatch);
// shorter alternative is to use an object instead of mapDispatchToProps function
const dispatchToProps = {
onIncrement: countersActions.increment,
};
// Notice we don't need to pass any generic type parameters to neither
// the connect function below nor map functions declared above
// because type inference will infer types from arguments annotations automatically
// This is much cleaner and idiomatic approach
export const FCCounterConnected =
connect(mapStateToProps, mapDispatchToProps)(FCCounter);
// You can add extra layer of validation of your action creators
// by using bindActionCreators generic type parameter and RootAction type
const mapDispatchToProps = (dispatch: Dispatch<MyTypes.RootAction>) =>
bindActionCreators<ActionCreatorsMapObject<Types.RootAction>>({
invalidActionCreator: () => 1, // Error: Type 'number' is not assignable to type '{ type: "todos/ADD"; payload: Todo; } | { ... }
}, dispatch);
注意:使用 thunk action creators 时你需要使用 bindActionCreators
。只有这样,你才能获得正确的 dispatch props 类型签名,如下所示。
警告: 目前(2019 四月)最新版 redux-thunk
中的 bindActionCreators
签名不会像下面那样正常工作,你需要使用 /playground/typings/redux-thunk/index.d.ts
中改良的类型定义并覆写 tsconfig 中的 paths
字段,像这样: "paths":{"redux-thunk":["typings/redux-thunk"]}
。
const thunkAsyncAction = () => async (dispatch: Dispatch): Promise<void> => {
// dispatch actions, return Promise, etc.
}
const mapDispatchToProps = (dispatch: Dispatch<Types.RootAction>) =>
bindActionCreators(
{
thunkAsyncAction,
},
dispatch
);
type DispatchProps = ReturnType<typeof mapDispatchToProps>;
// { thunkAsyncAction: () => Promise<void>; }
/* Without "bindActionCreators" fix signature will be the same as the original "unbound" thunk function: */
// { thunkAsyncAction: () => (dispatch: Dispatch<AnyAction>) => Promise<void>; }
通用的、跨项目的、 TS 相关的 npm scripts
"prettier": "prettier --list-different 'src/**/*.ts' || (echo '\nPlease fix code formatting by running:\nnpm run prettier:fix\n'; exit 1)",
"prettier:fix": "prettier --write 'src/**/*.ts'",
"lint": "tslint -p ./",
"tsc": "tsc -p ./ --noEmit",
"tsc:watch": "tsc -p ./ --noEmit -w",
"test": "jest --config jest.config.json",
"test:watch": "jest --config jest.config.json --watch",
"test:update": "jest --config jest.config.json -u"
"ci-check": "npm run prettier && npm run lint && npm run tsc && npm run test",
我们有推荐的 tsconfig.json
配置文件,你可以借助 react-redux-typescript-scripts
方便地把它添加到你的项目里。
Click to expand
{
"include": [
"src",
"typings"
],
"exclude": [
"src/**/*.spec.*"
],
"extends": "./node_modules/react-redux-typescript-scripts/tsconfig.json",
"compilerOptions": {}
}
https://www.npmjs.com/package/tslib
这个库通过把运行时辅助函数外置化,而不是内嵌到每个文件中,来减少你的打包文件大小。
安装
npm i tslib
把这行加到你的 tsconfig.json
中:
"compilerOptions": {
"importHelpers": true
}
https://palantir.github.io/tslint/
安装
npm i -D tslint
如果用于 React 项目,你应该加上额外的
react
规则集:npm i -D tslint-react
https://github.com/palantir/tslint-react
我们有推荐配置文件,你可以借助 react-redux-typescript-scripts
方便地把它添加到你的项目里。
Click to expand
{
"extends": [
"./node_modules/react-redux-typescript-scripts/tslint.json",
"./node_modules/react-redux-typescript-scripts/tslint-react.json"
],
"rules": {
// you can further customize options here
}
}
https://eslint.org/
https://typescript-eslint.io
安装
npm i -D eslint @typescript-eslint/parser @typescript-eslint/eslint-plugin
我们有推荐配置文件,他会自动添加 TypeScript 的解析器和插件,你可以借助 react-redux-typescript-scripts
方便地把它添加到你的项目里。
Click to expand
{
"extends": [
"react-app",
"./node_modules/react-redux-typescript-scripts/eslint.js"
],
"rules": {
// you can further customize options here
}
}
安装
npm i -D jest ts-jest @types/jest
Click to expand
{
"verbose": true,
"transform": {
".(ts|tsx)": "ts-jest"
},
"testRegex": "(/spec/.*|\\.(test|spec))\\.(ts|tsx|js)$",
"moduleFileExtensions": ["ts", "tsx", "js"],
"moduleNameMapper": {
"^Components/(.*)": "./src/components/$1"
},
"globals": {
"window": {},
"ts-jest": {
"tsConfig": "./tsconfig.json"
}
},
"setupFiles": ["./jest.stubs.js"],
"testURL": "http://localhost/"
}
Click to expand
// Global/Window object Stubs for Jest
window.matchMedia = window.matchMedia || function () {
return {
matches: false,
addListener: function () { },
removeListener: function () { },
};
};
window.requestAnimationFrame = function (callback) {
setTimeout(callback);
};
window.localStorage = {
getItem: function () { },
setItem: function () { },
};
Object.values = () => [];
不。用了 TypeScript 之后,没有必要再使用 PropTypes。当声明 Props 和 State 接口后,你将通过静态类型检查获得完全的自动补全和编码时的安全性。这样,你就能直接避免运行时错误,并减少大量调试时间。额外的好处是,这也是一种用于在源码中解释组件公共 API 的优雅而标准化的方法。
从实际来看,使用 interface
声明在编译错误时会生成一个 interface 同名标识,相反 type
别名不会生成标识名,并且会展开显示所有属性和嵌套的类型。
尽管我大部分时候更喜欢用 type
,但是有时候编译错误过于冗长影响排查,我会根据两者的差别,改用 interface 来隐藏报错中没那么重要的类型细节。
相关的 ts-lint
规则:https://palantir.github.io/tslint/rules/interface-over-type-literal/
一个常见的适应性方案是使用文件夹模块模式,这样你可以根据情况同时使用具名和默认 import。 这个方案的好处是你能实现更好的封装,以及能够安全地重构内部命名和文件夹结构,而不影响你的业务代码:
// 1. create your component files (`select.tsx`) using default export in some folder:
// components/select.tsx
const Select: React.FC<Props> = (props) => {
...
export default Select;
// 2. in this folder create an `index.ts` file that will re-export components with named exports:
// components/index.ts
export { default as Select } from './select';
...
// 3. now you can import your components in both ways, with named export (better encapsulation) or using default export (internal access):
// containers/container.tsx
import { Select } from '@src/components';
or
import Select from '@src/components/select';
...
首选新语法来进行 class 属性初始化
class ClassCounterWithInitialCount extends React.Component<Props, State> {
// default props using Property Initializers
static defaultProps: DefaultProps = {
className: 'default-class',
initialCount: 0,
};
// initial state using Property Initializers
state: State = {
count: this.props.initialCount,
};
...
}
首选新语法,用箭头函数声明 class 方法字段
class ClassCounter extends React.Component<Props, State> {
// handlers using Class Fields with arrow functions
handleIncrement = () => {
this.setState({ count: this.state.count + 1 });
};
...
}
(译注:环境声明(ambient) 和 模块扩展(augmentation))
若要进行 module 扩展,import 应该位于 module 声明外部。
import { Operator } from 'rxjs/Operator';
import { Observable } from 'rxjs/Observable';
declare module 'rxjs/Subject' {
interface Subject<T> {
lift<R>(operator: Operator<T, R>): Observable<R>;
}
}
创建第三方类型定义时,所有 imports 应该位于 module 声明内部,否则 imports 将被视为扩展并报错。
declare module "react-custom-scrollbars" {
import * as React from "react";
export interface positionValues {
...
如果你找不到第三方模块的类型声明,你可以自己写一个,或借助 Shorthand Ambient Modules 禁用该模块的类型检查。
// typings/modules.d.ts
declare module 'MyTypes';
declare module 'react-test-renderer';
如果你想为(自带类型定义的)某些 npm 模块使用替代的(自定义的)类型定义,你可以通过覆写编译选项中 paths
字段来实现。
{
"compilerOptions": {
"baseUrl": ".",
"paths": {
"redux": ["typings/redux"], // use an alternative type-definitions instead of the included one
...
},
...,
}
}
外部类型定义文件(*.d.ts)相关问题的处理策略
// added missing autoFocus Prop on Input component in "[email protected]" npm package
declare module '../node_modules/antd/lib/input/Input' {
export interface InputProps {
autoFocus?: boolean;
}
}
// fixed broken public type-definitions in "[email protected]" npm package
import { Operator } from 'rxjs/Operator';
import { Observable } from 'rxjs/Observable';
declare module 'rxjs/Subject' {
interface Subject<T> {
lift<R>(operator: Operator<T, R>): Observable<R>;
}
}
更多搭配第三方类型定义的进阶场景可以在 TypeScript 官方文档 找到
相关进阶教程精选清单
高阶组件:
感谢这些优秀的人 (emoji key):
这个项目遵循 all-contributors 规范。欢迎任意形式的贡献!
MIT License
Copyright (c) 2017 Piotr Witek [email protected] (http://piotrwitek.github.io)