Tutorials and examples can be found here.
npm install ts-loader
You will also need to install TypeScript if you have not already.
npm install typescript
or if you want to install TypeScript globally
npm install typescript -g
npm link typescript
Take advantage of the Changelog and Upgrade Guide.
Use webpack like normal, including webpack --watch
and webpack-dev-server
, or through another
build system using the Node.js API.
The current version is compatible with TypeScript 1.6 and above, including the nightly build. You may experience issues using the nightly build due to its nature, but a full test suite runs against the latest nightly every day to catch incompatibilites early. Please report any issues you experience with the nightly so that they can be fixed promptly.
-
Create or update
webpack.config.js
like so:module.exports = { entry: './app.ts', output: { filename: 'bundle.js' }, resolve: { // Add `.ts` and `.tsx` as a resolvable extension. 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?$/, loader: 'ts-loader' } ] } }
-
{ "compilerOptions": { "target": "es5", "sourceMap": true }, "exclude": [ "node_modules" ] }
The tsconfig.json file controls
TypeScript-related options so that your IDE, the tsc
command, and this loader all share the
same options. TypeScript files from all subdirectories will get included except the ones matching exclude
.
There are two types of options: TypeScript options (aka "compiler options") and loader options.
TypeScript options should be set using a tsconfig.json file. Loader options can be set either
using a query when specifying the loader or through the ts
property in the webpack configuration.
module.exports = {
...
module: {
loaders: [
// specify option using query
{ test: /\.tsx?$/, loader: 'ts-loader?compiler=ntypescript' }
]
},
// specify option using `ts` property
ts: {
compiler: 'ntypescript'
}
}
If you want to speed up compilation significantly you can set this flag.
However, many of the benefits you get from static type checking between
different dependencies in your application will be lost. You should also
set the isolatedModules
TypeScript option if you plan to ever make use
of this.
If true, no console.log messages will be emitted. Note that most error messages are emitted via webpack which is not affected by this flag.
You can squelch certain TypeScript errors by specifying an array of diagnostic codes to ignore.
Allows use of TypeScript compilers other than the official one. Should be
set to the NPM name of the compiler, eg ntypescript
.
Allows you to specify a custom configuration file.
Allows overriding TypeScript options. Should be specified in the same format
as you would do for the compilerOptions
property in tsconfig.json.
Advanced option to force files to go through different instances of the TypeScript compiler. Can be used to force segregation between different parts of your code.
Loading css and other resources is possible but you will need to make sure that
you have defined the require
function in a declaration file.
declare var require: {
<T>(path: string): T;
(paths: string[], callback: (...modules: any[]) => void): void;
ensure: (paths: string[], callback: (require: <T>(path: string) => T) => void) => void;
};
Then you can simply require assets or chunks per the webpack documentation.
require('!style!css!./style.css');
The same basic process is required for code splitting. In this case, you import
modules you need but you
don't directly use them. Instead you require them at split points.
See this example for more details.
Please see the contributer's guide.
MIT License