gulp-typescript

What is gulp-typescript?

gulp-typescript is a TypeScript compiler for gulp, a toolkit that helps automate time-consuming tasks in your development workflow. It allows you to integrate TypeScript compilation into your gulp build process, providing a seamless way to compile TypeScript files into JavaScript.

What are gulp-typescript's main functionalities?

Basic Compilation

This feature allows you to compile TypeScript files into JavaScript. The code sample demonstrates how to set up a basic gulp task to compile TypeScript files using a tsconfig.json configuration file.

const gulp = require('gulp');
const ts = require('gulp-typescript');

const tsProject = ts.createProject('tsconfig.json');

gulp.task('scripts', function () {
  return tsProject.src()
    .pipe(tsProject())
    .js.pipe(gulp.dest('dist'));
});

Incremental Compilation

This feature enables incremental compilation, which can significantly speed up the build process by only recompiling files that have changed. The code sample shows how to enable incremental compilation by setting the 'incremental' option to true.

const gulp = require('gulp');
const ts = require('gulp-typescript');

const tsProject = ts.createProject('tsconfig.json', { incremental: true });

gulp.task('scripts', function () {
  return tsProject.src()
    .pipe(tsProject())
    .js.pipe(gulp.dest('dist'));
});

Source Maps

This feature allows you to generate source maps for your TypeScript files, which can be very useful for debugging. The code sample demonstrates how to integrate source map generation into your gulp task.

const gulp = require('gulp');
const ts = require('gulp-typescript');
const sourcemaps = require('gulp-sourcemaps');

const tsProject = ts.createProject('tsconfig.json');

gulp.task('scripts', function () {
  return tsProject.src()
    .pipe(sourcemaps.init())
    .pipe(tsProject())
    .pipe(sourcemaps.write('.'))
    .pipe(gulp.dest('dist'));
});

Other packages similar to gulp-typescript

typescript

The 'typescript' package is the official TypeScript compiler. It can be used directly via the command line or integrated into build tools like Webpack or Rollup. Unlike gulp-typescript, it does not provide built-in support for gulp, so additional configuration is needed to use it in a gulp workflow.

ts-loader

ts-loader is a TypeScript loader for Webpack. It allows you to compile TypeScript files within a Webpack build process. While it offers similar functionality to gulp-typescript, it is specifically designed for use with Webpack rather than gulp.

awesome-typescript-loader

awesome-typescript-loader is another TypeScript loader for Webpack. It is known for its performance optimizations and additional features like caching. Similar to ts-loader, it is intended for use with Webpack and not gulp.

README

gulp-typescript

A gulp plugin for handling TypeScript compilation workflow. The plugin exposes TypeScript's compiler options to gulp using TypeScript API.

This plugin works best with gulp 4. If you cannot update to this version, please see the section "Gulp 3" below.

Updating from version 2? See the breaking changes in version 3.

How to install

1. Install gulp CLI

npm install --global gulp-cli

2. Install gulp in the project dependency

npm install gulp@4

3. Install gulp-typescript & TypeScript

npm install gulp-typescript typescript

Options

Almost all options from TypeScript are supported.

• outFile (string) - Generate one javascript and one definition file. Only works when no module system is used.
• outDir (string) - Move output to a different (virtual) directory. Note that you still need gulp.dest to write output to disk.
• noImplicitAny (boolean) - Warn on expressions and declarations with an implied 'any' type.
• suppressImplicitAnyIndexErrors (boolean) - Suppress --noImplicitAny errors for indexing objects lacking index signatures.
• noLib (boolean) - Don't include the default lib (with definitions for - Array, Date etc)
• lib (string[]) - List of library files to be included in the compilation.
• target (string) - Specify ECMAScript target version: 'ES3' (default), 'ES5' or 'ES6'.
• module (string) - Specify module code generation: 'commonjs', 'amd', 'umd' or 'system'.
• jsx (string) - Specify jsx code generation: 'react' or 'preserve' (TS1.6+).
• declaration (boolean) - Generates corresponding .d.ts files. You need to pipe the dts streams to save these files.
• removeComments (boolean) - Do not emit comments to output.
• emitDecoratorMetadata (boolean) - Emit design-time metadate for decorated declarations in source.
• experimentalAsyncFunctions (boolean) - Support for ES7-proposed asynchronous functions using the async/await keywords (TS1.6+).
• experimentalDecorators (boolean) - Enables experimental support for ES7 decorators.
• moduleResolution (string) - Determine how modules get resolved. Either 'node' for Node.js/io.js style resolution, or 'classic' (default) (TS1.6+).
• noEmitOnError (boolean) - Do not emit outputs if any type checking errors were reported.
• noEmitHelpers (boolean) - Do not generate custom helper functions like __extends in compiled output.
• preserveConstEnums (boolean) - Do not erase const enum declarations in generated code.
• isolatedModules (boolean) - Compiles files seperately and doesn't check types, which causes a big speed increase. You have to use gulp-plumber and TypeScript 1.5+.
• allowJs (boolean) - Allow JavaScript files to be compiled.
• rootDir - Specifies the root directory of input files. Only use to control the output directory structure with outDir.

See the TypeScript wiki for a complete list. These options are not supported:

• Sourcemap options (sourceMap, inlineSourceMap, inlineSources, sourceRoot, declarationMap) - Use gulp-sourcemaps instead.
• watch - Use gulp.watch instead. See the paragraph "Incremental compilation".
• project - See "Using tsconfig.json".
• Obvious: help, version

API overview

gulp-typescript can be imported using const ts = require('gulp-typescript');. It provides the following functions:

• ts(options?) - Returns a gulp stream that compiles TypeScript files using the specified options.
• ts.createProject(options?), ts.createProject(tsconfig filename, options?) - Returns a project. The intended usage is to create a project outside of a task with const tsProject = ts.createProject(..);. Within a task, tsProject() can be used to compile a stream of TypeScript files.
• tsProject.src() - Returns a stream containing the source files (.ts) from a tsconfig file. It can only be used if you create a project with a tsconfig.json file. It is a replacement for gulp.src(..).

Both ts(..) and tsProject() provide sub-streams that only contain the JavaScript or declaration files. An example is shown later in the readme.

Basic Usage

Below is a minimal gulpfile.js which will compile all TypeScript file in folder src and emit a single output file called output.js in built/local. To invoke, simple run gulp.

var gulp = require('gulp');
var ts = require('gulp-typescript');

gulp.task('default', function () {
    return gulp.src('src/**/*.ts')
        .pipe(ts({
            noImplicitAny: true,
            outFile: 'output.js'
        }))
        .pipe(gulp.dest('built/local'));
});

Another example of gulpfile.js. Instead of creating the default task, the file specifies custom named task. To invoke, run gulp scripts instead of gulp. As a result, the task will generate both JavaScript files and TypeScript definition files (.d.ts).

var gulp = require('gulp');
var ts = require('gulp-typescript');
var merge = require('merge2');  // Requires separate installation

gulp.task('scripts', function() {
    var tsResult = gulp.src('lib/**/*.ts')
        .pipe(ts({
            declaration: true
        }));

    return merge([
        tsResult.dts.pipe(gulp.dest('release/definitions')),
        tsResult.js.pipe(gulp.dest('release/js'))
    ]);
});

tsResult is a stream containing the generated JavaScript and definition files. In many situations, some plugins need to be executed on the JavaScript files. For these situations, the stream has sub-streams, namely a JavaScript stream (tsResult.js) and a definition file stream (tsResult.dts). You need to set the declaration option to generate definition files. If you don't need the definition files, you can use a configuration as seen in the first example, and you don't need to store the result into a variable as tsResult.

Incremental compilation

Instead of calling ts(options), you can create a project first outside of the task. Inside the task, you should then use tsProject(). An example:

var gulp = require('gulp');
var ts = require('gulp-typescript');
var merge = require('merge2');

var tsProject = ts.createProject({
    declaration: true
});

gulp.task('scripts', function() {
    return gulp.src('lib/*.ts')
        .pipe(tsProject())
        .pipe(gulp.dest('dist'));
});

gulp.task('watch', ['scripts'], function() {
    gulp.watch('lib/*.ts', ['scripts']);
});

When you run gulp watch, the source will be compiled as usual. Then, when you make a change and save the file, your TypeScript files will be compiled in about half the time.

You must create the project outside of the task. You can't use the same project in multiple tasks. Instead, create multiple projects or use a single task to compile your sources. Usually it is not worth to create different tasks for the client side, backend or tests.

Using tsconfig.json

To use tsconfig.json, you have to use ts.createProject:

var tsProject = ts.createProject('tsconfig.json');

If you want to add or overwrite certain settings in the tsconfig.json file, you can use:

var tsProject = ts.createProject('tsconfig.json', { noImplicitAny: true });

The task will look like:

gulp.task('scripts', function() {
    var tsResult = gulp.src("lib/**/*.ts") // or tsProject.src()
        .pipe(tsProject());

    return tsResult.js.pipe(gulp.dest('release'));
});

You can replace gulp.src(...) with tsProject.src() to load files based on the tsconfig file (based on files, excludes and includes).

TypeScript version

gulp-typescript isn't restricted to a single TypeScript version. You can install the latest stable version using npm install typescript --save-dev or a nightly npm install typescript@next --save-dev.

You can also use a fork of TypeScript, if it is based on TypeScript 2.x. You can configure this in your gulpfile:

[...].pipe(ts({
    typescript: require('my-fork-of-typescript')
}));

Or in combination with a tsconfig file:

var tsProject = ts.createProject('tsconfig.json', {
    typescript: require('my-form-of-typescript')
});

Source maps

gulp-typescript supports source maps by the usage of the gulp-sourcemaps plugin. It works for both JavaScript and definition (.d.ts) files. You don't have to set sourceMap or declarationMap in your configuration. When you use gulp-sourcemaps, they will be generated automatically.

Configuring the paths of source maps can be hard. The easiest way to get working source maps is to inline the sources of your TypeScript files in the source maps. This will of course increase the size of the source maps. The following example demonstrates this approach:

var gulp = require('gulp')
var ts = require('gulp-typescript');
var sourcemaps = require('gulp-sourcemaps');

gulp.task('scripts', function() {
    return gulp.src('lib/*.ts')
        .pipe(sourcemaps.init()) // This means sourcemaps will be generated
        .pipe(ts({
            // ...
        }))
        .pipe( ... ) // You can use other plugins that also support gulp-sourcemaps
        .pipe(sourcemaps.write()) // Now the sourcemaps are added to the .js file
        .pipe(gulp.dest('dist'));
});

When you are not inlining the source content, you should specify the sourceRoot property. It can be configured with the following rule:

• If you don't provide the outDir option to TypeScript, the sourceRoot option of gulp-sourcemaps should be the relative path from the gulp.dest path to the source directory (from gulp.src)
• If you set the outDir option to the same value as the directory in gulp.dest, you should set the sourceRoot to ./.
• If you set the outDir option to a different value, there is no easy rule to configure gulp-sourcemaps. I'd advise to change the value of outDir if possible.

Furthermore you should set includeContent: false. Here's an example where outDir isn't set:

gulp.task('scripts', function() {
    return gulp.src('lib/*.ts')
        .pipe(sourcemaps.init())
        .pipe(ts({
            // ...
        }))
        .pipe(sourcemaps.write('.', { includeContent: false, sourceRoot: '../lib' }))
        .pipe(gulp.dest('dist'));
});

Some examples can be found in ivogabe/gulp-typescript-sourcemaps-demo.

For more information, see gulp-sourcemaps.

Custom transforms

You can pass aditional transforms to the compiler pipeline. We aligned with the interface of awesome-typescript-loader. You can specify transforms by setting the getCustomTransformers option.

The option expects a string, pointing at a module that exposes the transforms, or a function that returns the transforms. Its type is getCustomTransformers: (string | ((program: ts.Program) => ts.CustomTransformers | undefined)).

const styledComponentsTransformer = require('typescript-plugin-styled-components').default;

const project = ts.createProject('test/customTransformers/tsconfig.json', {
    getCustomTransformers: () => ({
        before: [
            styledComponentsTransformer(),
        ]
    });
});

Reporters

By default, errors are logged to the console and the build crashes on compiler errors. In watch mode, the build does not throw, meaning that consequent builds are still ran. Note that gulp 4 is required for this behaviour. If you are still using gulp 3, see the section "Gulp 3" below.

If you want to change the way that messages are logged to the console (or some other output), you can provide a reporter. You can specify a custom reporter as the second argument of the main function, or as the only argument when using a tsProject:

ts(options, reporter);
tsProject(reporter);

Available reporters are:

• nullReporter (ts.reporter.nullReporter()) - Don't report errors
• defaultReporter (ts.reporter.defaultReporter()) - Report basic errors to the console
• longReporter (ts.reporter.longReporter()) - Extended version of default reporter, intelliJ link functionality + file watcher error highlighting should work using this one
• fullReporter (ts.reporter.fullReporter(showFullFilename?: boolean)) - Show full error messages, with source.

If you want to build a custom reporter, you take a look at lib/reporter.ts, that file declares an interface which a reporter should implement.

Gulp 3

This plugin works best with gulp 4. If you cannot update to this version, you may experience problems when using incremental compilations with a watcher. A compilation error will namely crash the process, which is desired in a CI environment. Gulp 4 prevents that the process crashes in watch mode. This does not happen in gulp 3, so you will need to handle that manually.

You should attach an error handler to catch those compilation errors.

gulp.src(..)
  .pipe(ts(..))
  .on('error', () => { /* Ignore compiler errors */})
  .pipe(gulp.dest(..))

Build gulp-typescript

1. Clone this repo
2. Execute npm install
3. Execute git submodule update --init to pull down the TypeScript compiler/services versions used in the test suite.
4. Ensure the gulp CLI is globally installed (npm install -g gulp-cli).
5. Execute the tests: gulp.

The plugin uses itself to compile. There are 2 build directories, release and release-2. release must always contain a working build. release-2 contains the last build. When you run gulp compile, the build will be saved in the release-2 directory. gulp test will compile the source to release-2, and then it will run some tests. If these tests give no errors, you can run gulp release. The contents from release-2 will be copied to release.

License

gulp-typescript is licensed under the MIT license.