This quick start guide will teach you how to build TypeScript with gulp and then add Browserify, terser, or Watchify to the gulp pipeline. This guide also shows how to add Babel functionality using Babelify.
We assume that you’re already using Node.js with npm.
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/ └─ dist/
TypeScript files will start out in your src
folder, run through the TypeScript compiler and end up in dist
.
Let’s scaffold this out:
mkdir src mkdir dist
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/main.js
. You can always go back and change these in the package.json
file that’s been generated for you.
Now we can use npm install
to install packages. First install gulp-cli
globally (if you use a Unix system, you may need to prefix the npm install
commands in this guide with sudo
).
npm install -g gulp-cli
Then install typescript
, gulp
and gulp-typescript
in your project’s dev dependencies. Gulp-typescript is a gulp plugin for TypeScript.
npm install --save-dev typescript [email protected] gulp-typescript
Let’s write a Hello World program. In src
, create the file main.ts
:
function hello(compiler: string) { console.log(`Hello from ${compiler}`); } hello("TypeScript");
In the project root, proj
, create the file tsconfig.json
:
{ "files": ["src/main.ts"], "compilerOptions": { "noImplicitAny": true, "target": "es5" } }
gulpfile.js
In the project root, create the file gulpfile.js
:
var gulp = require("gulp"); var ts = require("gulp-typescript"); var tsProject = ts.createProject("tsconfig.json"); gulp.task("default", function () { return tsProject.src().pipe(tsProject()).js.pipe(gulp.dest("dist")); });
gulp node dist/main.js
The program should print “Hello from TypeScript!“.
Before we get to Browserify, let’s build our code out and add modules to the mix. This is the structure you’re more likely to use for a real app.
Create a file called src/greet.ts
:
export function sayHello(name: string) { return `Hello from ${name}`; }
Now change the code in src/main.ts
to import sayHello
from greet.ts
:
import { sayHello } from "./greet"; console.log(sayHello("TypeScript"));
Finally, add src/greet.ts
to tsconfig.json
:
{ "files": ["src/main.ts", "src/greet.ts"], "compilerOptions": { "noImplicitAny": true, "target": "es5" } }
Make sure that the modules work by running gulp
and then testing in Node:
gulp node dist/main.js
Notice that even though we used ES2015 module syntax, TypeScript emitted CommonJS modules that Node uses. We’ll stick with CommonJS for this tutorial, but you could set module
in the options object to change this.
Now let’s move this project from Node to the browser. To do this, we’d like to bundle all our modules into one JavaScript file. Fortunately, that’s exactly what Browserify does. Even better, it lets us use the CommonJS module system used by Node, which is the default TypeScript emit. That means our TypeScript and Node setup will transfer to the browser basically unchanged.
First, install browserify, tsify, and vinyl-source-stream. tsify is a Browserify plugin that, like gulp-typescript, gives access to the TypeScript compiler. vinyl-source-stream lets us adapt the file output of Browserify back into a format that gulp understands called vinyl.
npm install --save-dev browserify tsify vinyl-source-stream
Create a file in src
named index.html
:
<!DOCTYPE html> <html> <head> <meta charset="UTF-8" /> <title>Hello World!</title> </head> <body> <p id="greeting">Loading ...</p> <script src="bundle.js"></script> </body> </html>
Now change main.ts
to update the page:
import { sayHello } from "./greet"; function showHello(divName: string, name: string) { const elt = document.getElementById(divName); elt.innerText = sayHello(name); } showHello("greeting", "TypeScript");
Calling showHello
calls sayHello
to change the paragraph’s text. Now change your gulpfile to the following:
var gulp = require("gulp"); var browserify = require("browserify"); var source = require("vinyl-source-stream"); var tsify = require("tsify"); var paths = { pages: ["src/*.html"], }; gulp.task("copy-html", function () { return gulp.src(paths.pages).pipe(gulp.dest("dist")); }); gulp.task( "default", gulp.series(gulp.parallel("copy-html"), function () { return browserify({ basedir: ".", debug: true, entries: ["src/main.ts"], cache: {}, packageCache: {}, }) .plugin(tsify) .bundle() .pipe(source("bundle.js")) .pipe(gulp.dest("dist")); }) );
This adds the copy-html
task and adds it as a dependency of default
. That means any time default
is run, copy-html
has to run first. We’ve also changed default
to call Browserify with the tsify plugin instead of gulp-typescript. Conveniently, they both allow us to pass the same options object to the TypeScript compiler.
After calling bundle
we use source
(our alias for vinyl-source-stream) to name our output bundle bundle.js
.
Test the page by running gulp and then opening dist/index.html
in a browser. You should see “Hello from TypeScript” on the page.
Notice that we specified debug: true
to Browserify. This causes tsify to emit source maps inside the bundled JavaScript file. Source maps let you debug your original TypeScript code in the browser instead of the bundled JavaScript. You can test that source maps are working by opening the debugger for your browser and putting a breakpoint inside main.ts
. When you refresh the page the breakpoint should pause the page and let you debug greet.ts
.
Now that we are bundling our code with Browserify and tsify, we can add various features to our build with browserify plugins.
Watchify starts gulp and keeps it running, incrementally compiling whenever you save a file. This lets you keep an edit-save-refresh cycle going in the browser.
Babel is a hugely flexible compiler that converts ES2015 and beyond into ES5 and ES3. This lets you add extensive and customized transformations that TypeScript doesn’t support.
Terser compacts your code so that it takes less time to download.
We’ll start with Watchify to provide background compilation:
npm install --save-dev watchify fancy-log
Now change your gulpfile to the following:
var gulp = require("gulp"); var browserify = require("browserify"); var source = require("vinyl-source-stream"); var watchify = require("watchify"); var tsify = require("tsify"); var fancy_log = require("fancy-log"); var paths = { pages: ["src/*.html"], }; var watchedBrowserify = watchify( browserify({ basedir: ".", debug: true, entries: ["src/main.ts"], cache: {}, packageCache: {}, }).plugin(tsify) ); gulp.task("copy-html", function () { return gulp.src(paths.pages).pipe(gulp.dest("dist")); }); function bundle() { return watchedBrowserify .bundle() .on("error", fancy_log) .pipe(source("bundle.js")) .pipe(gulp.dest("dist")); } gulp.task("default", gulp.series(gulp.parallel("copy-html"), bundle)); watchedBrowserify.on("update", bundle); watchedBrowserify.on("log", fancy_log);
There are basically three changes here, but they require you to refactor your code a bit.
browserify
instance in a call to watchify
, and then held on to the result.watchedBrowserify.on('update', bundle);
so that Browserify will run the bundle
function every time one of your TypeScript files changes.watchedBrowserify.on('log', fancy_log);
to log to the console.Together (1) and (2) mean that we have to move our call to browserify
out of the default
task. And we have to give the function for default
a name since both Watchify and Gulp need to call it. Adding logging with (3) is optional but very useful for debugging your setup.
Now when you run Gulp, it should start and stay running. Try changing the code for showHello
in main.ts
and saving it. You should see output that looks like this:
proj$ gulp [10:34:20] Using gulpfile ~/src/proj/gulpfile.js [10:34:20] Starting 'copy-html'... [10:34:20] Finished 'copy-html' after 26 ms [10:34:20] Starting 'default'... [10:34:21] 2824 bytes written (0.13 seconds) [10:34:21] Finished 'default' after 1.36 s [10:35:22] 2261 bytes written (0.02 seconds) [10:35:24] 2808 bytes written (0.05 seconds)
First install Terser. Since the point of Terser is to mangle your code, we also need to install vinyl-buffer and gulp-sourcemaps to keep sourcemaps working.
npm install --save-dev gulp-terser vinyl-buffer gulp-sourcemaps
Now change your gulpfile to the following:
var gulp = require("gulp"); var browserify = require("browserify"); var source = require("vinyl-source-stream"); var terser = require("gulp-terser"); var tsify = require("tsify"); var sourcemaps = require("gulp-sourcemaps"); var buffer = require("vinyl-buffer"); var paths = { pages: ["src/*.html"], }; gulp.task("copy-html", function () { return gulp.src(paths.pages).pipe(gulp.dest("dist")); }); gulp.task( "default", gulp.series(gulp.parallel("copy-html"), function () { return browserify({ basedir: ".", debug: true, entries: ["src/main.ts"], cache: {}, packageCache: {}, }) .plugin(tsify) .bundle() .pipe(source("bundle.js")) .pipe(buffer()) .pipe(sourcemaps.init({ loadMaps: true })) .pipe(terser()) .pipe(sourcemaps.write("./")) .pipe(gulp.dest("dist")); }) );
Notice that terser
itself has just one call — the calls to buffer
and sourcemaps
exist to make sure sourcemaps keep working. These calls give us a separate sourcemap file instead of using inline sourcemaps like before. Now you can run Gulp and check that bundle.js
does get minified into an unreadable mess:
gulp cat dist/bundle.js
First install Babelify and the Babel preset for ES2015. Like Terser, Babelify mangles code, so we’ll need vinyl-buffer and gulp-sourcemaps. By default Babelify will only process files with extensions of .js
, .es
, .es6
and .jsx
so we need to add the .ts
extension as an option to Babelify.
npm install --save-dev babelify@8 babel-core babel-preset-es2015 vinyl-buffer gulp-sourcemaps
Now change your gulpfile to the following:
var gulp = require("gulp"); var browserify = require("browserify"); var source = require("vinyl-source-stream"); var tsify = require("tsify"); var sourcemaps = require("gulp-sourcemaps"); var buffer = require("vinyl-buffer"); var paths = { pages: ["src/*.html"], }; gulp.task("copy-html", function () { return gulp.src(paths.pages).pipe(gulp.dest("dist")); }); gulp.task( "default", gulp.series(gulp.parallel("copy-html"), function () { return browserify({ basedir: ".", debug: true, entries: ["src/main.ts"], cache: {}, packageCache: {}, }) .plugin(tsify) .transform("babelify", { presets: ["es2015"], extensions: [".ts"], }) .bundle() .pipe(source("bundle.js")) .pipe(buffer()) .pipe(sourcemaps.init({ loadMaps: true })) .pipe(sourcemaps.write("./")) .pipe(gulp.dest("dist")); }) );
We also need to have TypeScript target ES2015. Babel will then produce ES5 from the ES2015 code that TypeScript emits. Let’s modify tsconfig.json
:
{ "files": ["src/main.ts"], "compilerOptions": { "noImplicitAny": true, "target": "es2015" } }
Babel’s ES5 output should be very similar to TypeScript’s output for such a simple script.
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Licensed under the Apache License, Version 2.0.
https://www.typescriptlang.org/docs/handbook/gulp.html