"This guide is a living compendium documenting the most important patterns and recipes on how to use React (and its Ecosystem) in a functional style using TypeScript. It will help you make your code completely type-safe while focusing on inferring the types from implementation so there is less noise coming from excessive type annotations and it's easier to write and maintain correct types in the long run."
⭐ Found it useful? Want more updates? Show your support by giving a ⭐
🎉 Now updated to support TypeScript v3.4 🎉
Goals
- Complete type safety (with
--strict
flag) without losing type information downstream through all the layers of our application (e.g. no type assertions or hacking withany
type) - Make type annotations concise by eliminating redundancy in types using advanced TypeScript Language features like Type Inference and Control flow analysis
- Reduce repetition and complexity of types with TypeScript focused complementary libraries
React, Redux, Typescript Ecosystem
- typesafe-actions - Typesafe utilities for "action-creators" in Redux / Flux Architecture
- utility-types - Collection of generic types for TypeScript, complementing built-in mapped types and aliases - think lodash for reusable types.
- react-redux-typescript-scripts - dev-tools configuration files shared between projects based on this guide
Codesandbox links
- Reference Todo-App implementation using React, Redux, Typescript Guide: Link
Playground Project
You should check out Playground Project located in the /playground
folder. It is a source of all the code examples found in the guide. They are all tested with the most recent version of TypeScript and 3rd party type-definitions (like @types/react
or @types/react-redux
) to ensure the examples are up-to-date and not broken with updated definitions. It's based on create-react-app --typescript
.
Playground project was created so that you can simply clone the repository locally and immediately play around with all the component patterns found in the guide. It will help you to learn all the examples from this guide in a real project environment without the need to create complicated environment setup by yourself.
We are open for contributions. If you're planning to contribute please make sure to read the contributing guide: CONTRIBUTING.md
This is an independent open-source project created by people investing their free time for the benefit of our community.
If you are using it please consider donating as this will guarantee the project will be updated and maintained in the long run.
Issues can be funded by anyone interested in them being resolved. Reward will be transparently distributed to the contributor handling the task through the IssueHunt platform.
🌟 - New or updated section
- Installation
- React - Type-Definitions Cheatsheet
- React - Typing Patterns
- Redux - Typing Patterns
- Configuration & Dev Tools
- Recipes
- Tutorials & Articles
- Contributors
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
*NB: Guide is based on types for Redux >= v4.x.x. To make it work with Redux v3.x.x please refer to this config)
Type representing a functional component
const MyComponent: React.FC<Props> = ...
Type representing a class component
class MyComponent extends React.Component<Props, State> { ...
Type representing union of (React.FC | React.Component) - used in HOC
const withState = <P extends WrappedComponentProps>(
WrappedComponent: React.ComponentType<P>,
) => { ...
Gets Props type of a specified component XXX (WARNING: does not work with statically declared default props and generic props)
type MyComponentProps = React.ComponentProps<typeof MyComponent>;
Type representing a concept of React Element - representation of a native DOM component (e.g. <div />
), or a user-defined composite component (e.g. <MyComponent />
)
const elementOnly: React.ReactElement = <div /> || <MyComponent />;
Type representing any possible type of React node (basically ReactElement (including Fragments and Portals) + primitive JS types)
const elementOrPrimitive: React.ReactNode = 'string' || 0 || false || null || undefined || <div /> || <MyComponent />;
const Component = ({ children: React.ReactNode }) => ...
Type representing style object in JSX - for css-in-js styles
const styles: React.CSSProperties = { flexDirection: 'row', ...
const element = <div style={styles} ...
Type representing Props of specified HTML Element - for extending HTML Elements
const Input: React.FC<Props & React.HTMLProps<HTMLInputElement>> = props => { ... }
<Input about={...} accept={...} alt={...} ... />
Type representing generic event handler - for declaring event handlers
const handleChange: React.ReactEventHandler<HTMLInputElement> = (ev) => { ... }
<input onChange={handleChange} ... />
Type representing more specific event handler. Some common event examples: ChangeEvent, FormEvent, FocusEvent, KeyboardEvent, MouseEvent, DragEvent, PointerEvent, WheelEvent, TouchEvent
.
const handleChange = (ev: React.MouseEvent<HTMLDivElement>) => { ... }
<div onMouseMove={handleChange} ... />
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>
);
};
- spread attributes link
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,
};
componentWillReceiveProps({ initialCount }: Props) {
if (initialCount != null && initialCount !== this.props.initialCount) {
this.setState({ count: 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>
);
}
}
- easily create typed component variations and reuse common logic
- common use case is a generic list components
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>
);
}
}
simple component using children as a render prop
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
component found in Render Props React Docs
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>
);
}
}
Adds state to a stateless counter
import * as React from 'react';
import { Subtract } from 'utility-types';
// These props will be subtracted from base component props
interface InjectedProps {
count: number;
onIncrement: () => void;
}
export const withState = <BaseProps extends InjectedProps>(
_BaseComponent: React.ComponentType<BaseProps>
) => {
// fix for TypeScript issues: https://github.com/piotrwitek/react-redux-typescript-guide/issues/111
const BaseComponent = _BaseComponent as React.ComponentType<InjectedProps>;
type HocProps = Subtract<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(${BaseComponent.name})`;
// reference to original wrapped component
static readonly WrappedComponent = BaseComponent;
readonly state: HocState = {
count: Number(this.props.initialCount) || 0,
};
handleIncrement = () => {
this.setState({ count: this.state.count + 1 });
};
render() {
const { ...restProps } = this.props;
const { count } = this.state;
return (
<BaseComponent
count={count} // injected
onIncrement={this.handleIncrement} // injected
{...restProps}
/>
);
}
};
};
Click to expand
import * as React from 'react';
import { withState } from '../hoc';
import { FCCounter } from '../components';
const FCCounterWithState = withState(FCCounter);
export default () => <FCCounterWithState label={'FCCounterWithState'} />;
Adds error handling using componentDidCatch to any component
import * as React from 'react';
import { Subtract } from 'utility-types';
const MISSING_ERROR = 'Error was swallowed during propagation.';
// These props will be subtracted from base component props
interface InjectedProps {
onReset: () => void;
}
export const withErrorBoundary = <BaseProps extends InjectedProps>(
_BaseComponent: React.ComponentType<BaseProps>
) => {
// fix for TypeScript issues: https://github.com/piotrwitek/react-redux-typescript-guide/issues/111
const BaseComponent = _BaseComponent as React.ComponentType<InjectedProps>;
type HocProps = Subtract<BaseProps, InjectedProps> & {
// here you can extend hoc with new props
};
type HocState = {
readonly error: Error | null | undefined;
};
return class Hoc extends React.Component<HocProps, HocState> {
// Enhance component name for debugging and React-Dev-Tools
static displayName = `withErrorBoundary(${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
};
handleReset = () => {
this.setState({ error: undefined });
};
render() {
const { children, ...restProps } = this.props;
const { error } = this.state;
if (error) {
return (
<BaseComponent
onReset={this.handleReset} // injected
{...restProps}
/>
);
}
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>
);
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>
);
}
}
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>
</>
);
}
Hook for state management like Redux in a function component.
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;
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>
);
}
Can be imported in connected components to provide type-safety to Redux connect
function
Can be imported in various layers receiving or sending redux actions like: reducers, sagas or redux-observables epics
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>;
}
}
When creating a store instance we don't need to provide any additional types. It will set-up a type-safe Store instance using type inference.
The resulting store instance methods like
getState
ordispatch
will be type checked and will expose all type errors
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;
We'll be using a battle-tested library that'll help retain complete type soundness and simplify maintenace of types in Redux Architectures
typesafe-actions
You can find more real-world examples and in-depth tutorial in: Typesafe-Actions - Tutorial!
A solution below is using a simple factory function to automate the creation of type-safe action creators. The goal is to decrease maintenance effort and reduce code repetition of type annotations for actions and creators. The result is completely typesafe action-creators and their actions.
import { action } from 'typesafe-actions';
import { ADD, INCREMENT } from './constants';
// CLASSIC API
export const increment = () => action(INCREMENT);
export const add = (amount: number) => action(ADD, amount);
// ALTERNATIVE API - allow to use reference to "action-creator" function instead of "type constant"
// e.g. case getType(increment): return { ... }
// This will allow to completely eliminate need for "constants" in your application, more info here:
// https://github.com/piotrwitek/typesafe-actions#behold-the-mighty-tutorial
// OPTION 1 (with generics):
// import { createStandardAction } from 'typesafe-actions';
// export const increment = createStandardAction(INCREMENT)<void>();
// export const add = createStandardAction(ADD)<number>();
// OPTION 2 (with resolve callback):
// import { createAction } from 'typesafe-actions';
// export const increment = createAction(INCREMENT);
// export const add = createAction(ADD, resolve => {
// return (amount: number) => resolve(amount);
// });
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
Declare reducer State
type with readonly
modifier to get compile time immutability
export type State = {
readonly counter: number;
readonly todos: ReadonlyArray<string>;
};
Readonly modifier allow initialization, but will not allow reassignment by highlighting compiler errors
export const initialState: State = {
counter: 0,
}; // OK
initialState.counter = 3; // TS Error: cannot be mutated
It's great for Arrays in JS because it will error when using mutator methods like (push
, pop
, splice
, ...), but it'll still allow immutable methods like (concat
, map
, slice
,...).
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
This means that the readonly
modifier doesn't propagate immutability down the nested structure of objects. You'll need to mark each property on each level explicitly.
TIP: use
Readonly
orReadonlyArray
Mapped types
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
To fix this we can use DeepReadonly
type (available from 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
to understand following section make sure to learn about Type Inference, Control flow analysis and Tagged union types
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;
}
},
});
Notice we are not required to use any generic type parameter in the API. Try to compare it with regular reducer as they are equivalent.
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)
.handleAction(ADD, (state, action) => [...state, action.payload])
.handleAction(TOGGLE, (state, action) =>
state.map(item =>
item.id === action.payload
? { ...item, completed: !item.completed }
: item
)
);
const todosFilter = createReducer(initialState.todosFilter).handleAction(
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;
}
});
NOTE: Below you'll find only a short explanation of concepts behind typing connect
. For more real-world examples please check Redux Connected Components section.
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);
NOTE: When using thunk action creators you need to use bindActionCreators
. Only this way you can get corrected dispatch props type signature like below.
WARNING: As of now (Apr 2019) bindActionCreators
signature of the latest redux-thunk
release will not work as below, you need to use updated type definitions that you can find here /playground/typings/redux-thunk/index.d.ts
and then add paths
overload in your tsconfig like this: "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>; }
Common TS-related npm scripts shared across projects
"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",
We have our own recommended tsconfig.json
that you can easily add to your project thanks to react-redux-typescript-scripts
package.
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
This library will cut down on your bundle size, thanks to using external runtime helpers instead of adding them per each file.
Installation
npm i tslib
Then add this to your tsconfig.json
:
"compilerOptions": {
"importHelpers": true
}
https://palantir.github.io/tslint/
Installation
npm i -D tslint
For React project you should add additional
react
specific rules:npm i -D tslint-react
https://github.com/palantir/tslint-react
We have our own recommended config that you can easily add to your project thanks to react-redux-typescript-scripts
package.
Click to expand
{
"extends": [
"react-redux-typescript-scripts/tslint.json",
"react-redux-typescript-scripts/tslint-react.json"
],
"rules": {
// you can further customize options here
}
}
https://eslint.org/
https://typescript-eslint.io
Installation
npm i -D eslint @typescript-eslint/parser @typescript-eslint/eslint-plugin
We have our own recommended config that will automatically add a parser & plugin for TypeScript thanks to react-redux-typescript-scripts
package.
Click to expand
{
"extends": [
"react-app",
"./node_modules/react-redux-typescript-scripts/eslint.js"
],
"rules": {
// you can further customize options here
}
}
Installation
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 = () => [];
No. With TypeScript, using PropTypes is an unnecessary overhead. When declaring Props and State interfaces, you will get complete intellisense and design-time safety with static type checking. This way you'll be safe from runtime errors and you will save a lot of time on debugging. Additional benefit is an elegant and standardized method of documenting your component public API in the source code.
From practical side, using interface
declaration will create an identity (interface name) in compiler errors, on the contrary type
aliases doesn't create an identity and will be unwinded to show all the properties and nested types it consists of.
Although I prefer to use type
most of the time there are some places this can become too noisy when reading compiler errors and that's why I like to leverage this distinction to hide some of not so important type details in errors using interfaces identity.
Related ts-lint
rule: https://palantir.github.io/tslint/rules/interface-over-type-literal/
A common flexible solution is to use module folder pattern, because you can leverage both named and default import when you see fit.
With this solution you'll achieve better encapsulation and be able to safely refactor internal naming and folders structure without breaking your consumer code:
// 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';
...
Prefered modern syntax is to use class Property Initializers
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,
};
...
}
Prefered modern syntax is to use Class Fields with arrow functions
class ClassCounter extends React.Component<Props, State> {
// handlers using Class Fields with arrow functions
handleIncrement = () => {
this.setState({ count: this.state.count + 1 });
};
...
}
For type augmentation imports should stay outside of module declaration.
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>;
}
}
When creating 3rd party type-definitions all the imports should be kept inside the module declaration, otherwise it will be treated as augmentation and show error
declare module "react-custom-scrollbars" {
import * as React from "react";
export interface positionValues {
...
if you cannot find types for a third-party module you can provide your own types or disable type-checking for this module using Shorthand Ambient Modules
// typings/modules.d.ts
declare module 'MyTypes';
declare module 'react-test-renderer';
If you want to use an alternative (customized) type-definitions for some npm module (that usually comes with it's own type-definitions), you can do it by adding an override in paths
compiler option.
{
"compilerOptions": {
"baseUrl": ".",
"paths": {
"redux": ["typings/redux"], // use an alternative type-definitions instead of the included one
...
},
...,
}
}
Strategies to fix issues coming from external type-definitions files (*.d.ts)
// added missing autoFocus Prop on Input component in "antd@2.10.0" npm package
declare module '../node_modules/antd/lib/input/Input' {
export interface InputProps {
autoFocus?: boolean;
}
}
// fixed broken public type-definitions in "rxjs@5.4.1" 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>;
}
}
More advanced scenarios for working with vendor type-definitions can be found here Official TypeScript Docs
Curated list of relevant in-depth tutorials
Higher-Order Components:
Thanks goes to these wonderful people (emoji key):
This project follows the all-contributors specification. Contributions of any kind welcome!
MIT License
Copyright (c) 2017 Piotr Witek piotrek.witek@gmail.com (http://piotrwitek.github.io)