This quick start guide will teach you how to wire up TypeScript with React and webpack.

We assume that you’re already using Node.js with npm.

Lay out the project

Let’s start out with a new directory. We’ll name it proj for now, but you can change it to whatever you want.

mkdir proj
cd proj

To start, we’re going to structure our project in the following way:

proj/
   +- src/
   |  +- components/
   |
   +- dist/

TypeScript files will start out in your src folder, run through the TypeScript compiler, then webpack, and end up in a bundle.js file in dist. Any components that we write will go in the src/components folder.

Let’s scaffold this out:

mkdir src
cd src
mkdir components
cd ..
mkdir dist

Initialize the project

Now we’ll turn this folder into an npm package.

npm init

You’ll be given a series of prompts. You can use the defaults except for your entry point. For your entry point, use ./dist/bundle.js. You can always go back and change these in the package.json file that’s been generated for you.

Install our dependencies

First ensure TypeScript, Typings, and webpack are installed globally.

npm install -g typescript typings webpack

Webpack is a tool that will bundle your code and optionally all of its dependencies into a single .js file. Typings is a package manager for grabbing definition files.

Let’s now add React and React-DOM as dependencies to your package.json file:

npm install --save react react-dom

Next, we’ll add development-time dependencies on ts-loader and source-map-loader.

npm install --save-dev ts-loader source-map-loader
npm link typescript

Both of these dependencies will let TypeScript and webpack play well together. ts-loader helps webpack compile your TypeScript code using the TypeScript’s standard configuration file named tsconfig.json. source-map-loader uses any sourcemap outputs from TypeScript to inform webpack when generating its own sourcemaps. This will allow you to debug your final output file as if you were debugging your original TypeScript source code.

Linking TypeScript allows ts-loader to use your global installation of TypeScript instead of needing a separate local copy. If you want a local copy, just run npm install typescript.

Finally, we’ll use Typings to grab the declaration files for React and ReactDOM:

typings install --global --save dt~react
typings install --global --save dt~react-dom

The --global flag, along with the dt~ prefix tells Typings to grab any declaration files from DefinitelyTyped, a repository of community-authored .d.ts files.

This command will create a file called typings.json and a folder called typings in the current directory.

Add a TypeScript configuration file

You’ll want to bring your TypeScript files together - both the code you’ll be writing as well as any necessary declaration files.

To do this, you’ll need to create a tsconfig.json which contains a list of your input files as well as all your compilation settings. Simply create a new file in your project root named tsconfig.json and fill it with the following contents:

{
  "compilerOptions": {
    "outDir": "./dist/",
    "sourceMap": true,
    "noImplicitAny": true,
    "module": "commonjs",
    "target": "es5",
    "jsx": "react"
  },
  "files": [
    "./typings/index.d.ts",
    "./src/components/Hello.tsx",
    "./src/index.tsx"
  ]
}

We’re including typings/index.d.ts, which Typings created for us. That file automatically includes all of your installed dependencies.

You can learn more about tsconfig.json files here.

Write some code

Let’s write our first TypeScript file using React. First, create a file named Hello.tsx in src/components and write the following:

import * as React from "react";

export interface HelloProps { compiler: string; framework: string; }

export class Hello extends React.Component<HelloProps, {}> {
  render() {
    return <h1>Hello from {this.props.compiler} and {this.props.framework}!</h1>;
  }
}

Note that while this example is quite classy, we didn’t need to use a class. Other methods of using React (like stateless functional components) should work just as well.

Next, let’s create an index.tsx in src with the following source:

import * as React from "react";
import * as ReactDOM from "react-dom";

import { Hello } from "./components/Hello";

ReactDOM.render(
  <Hello compiler="TypeScript" framework="React" />,
  document.getElementById("example")
);

We just imported our Hello component into index.tsx. Notice that unlike with "react" or "react-dom", we used a relative path to Hello.tsx - this is important. If we hadn’t, TypeScript would’ve instead tried looking in our node_modules folder.

We’ll also need a page to display our Hello component. Create a file at the root of proj named index.html with the following contents:

<!DOCTYPE html>
<html>
  <head>
    <meta charset="UTF-8" />
    <title>Hello React!</title>
  </head>
  <body>
    <div id="example"></div>

    <!-- Dependencies -->
    <script src="./node_modules/react/dist/react.js"></script>
    <script src="./node_modules/react-dom/dist/react-dom.js"></script>

    <!-- Main -->
    <script src="./dist/bundle.js"></script>
  </body>
</html>

Notice that we’re including files from within node_modules. React and React-DOM’s npm packages include standalone .js files that you can include in a web page, and we’re referencing them directly to get things moving faster. Feel free to copy these files to another directory, or alternatively, host them on a content delivery network (CDN). Facebook makes CDN-hosted versions of React available, and you can read more about that here.

Create a webpack configuration file

Create a webpack.config.js file at the root of the project directory.

module.exports = {
  entry: "./src/index.tsx",
  output: {
    filename: "./dist/bundle.js",
  },

  // Enable sourcemaps for debugging webpack's output.
  devtool: "source-map",

  resolve: {
    // Add '.ts' and '.tsx' as resolvable extensions.
    extensions: ["", ".webpack.js", ".web.js", ".ts", ".tsx", ".js"]
  },

  module: {
    loaders: [
      // All files with a '.ts' or '.tsx' extension will be handled by 'ts-loader'.
      { test: /\.tsx?$/, loader: "ts-loader" }
    ],

    preLoaders: [
      // All output '.js' files will have any sourcemaps re-processed by 'source-map-loader'.
      { test: /\.js$/, loader: "source-map-loader" }
    ]
  },

  // When importing a module whose path matches one of the following, just
  // assume a corresponding global variable exists and use that instead.
  // This is important because it allows us to avoid bundling all of our
  // dependencies, which allows browsers to cache those libraries between builds.
  externals: {
    "react": "React",
    "react-dom": "ReactDOM"
  },
};

You might be wondering about that externals field. We want to avoid bundling all of React into the same file, since this increases compilation time and browsers will typically be able to cache a library if it doesn’t change.

Ideally, we’d just import the React module from within the browser, but most browsers still don’t quite support modules yet. Instead libraries have traditionally made themselves available using a single global variable like jQuery or _. This is called the “namespace pattern”, and webpack allows us to continue leveraging libraries written that way. With our entry for "react": "React", webpack will work its magic to make any import of "react" load from the React variable.

You can learn more about configuring webpack here.

Putting it all together

Just run:

webpack

Now open up index.html in your favorite browser and everything should be ready to use! You should see a page that says “Hello from TypeScript and React!”

Create a new project

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Test

Test Run the project. You should see a message when you type in the input boxes:

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Test the resulting app

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Write some code

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Babel

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Putting it all together

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Test

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Debug

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Add modules to the code

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