Bundling Extensions
The first reason to bundle your Visual Studio Code extension is to make sure it works for everyone using VS Code on any platform. Only bundled extensions can be used in VS Code for Web environments like github.dev and vscode.dev. When VS Code is running in the browser, it can only load one file for your extension so the extension code needs to be bundled into one single web-friendly JavaScript file. This also applies to Notebook Output Renderers, where VS Code will also only load one file for your renderer extension.
In addition, extensions can quickly grow in size and complexity. They may be authored in multiple source files and depend on modules from npm. Decomposition and reuse are development best practices but they come at a cost when installing and running extensions. Loading 100 small files is much slower than loading one large file. That's why we recommend bundling. Bundling is the process of combining multiple small source files into a single file.
For JavaScript, different bundlers are available. Popular ones are rollup.js, Parcel, esbuild, and webpack.
Using esbuild
esbuild
is a fast JavaScript bundler that's simple to configure. To acquire esbuild, open the terminal and type:
npm i --save-dev esbuild
Run esbuild
You can run esbuild from the command line but to reduce repetition and enable problem reporting, it is helpful to use a build script, esbuild.js
:
const esbuild = require("esbuild");
const production = process.argv.includes('--production');
const watch = process.argv.includes('--watch');
async function main() {
const ctx = await esbuild.context({
entryPoints: [
'src/extension.ts'
],
bundle: true,
format: 'cjs',
minify: production,
sourcemap: !production,
sourcesContent: false,
platform: 'node',
outfile: 'dist/extension.js',
external: ['vscode'],
logLevel: 'silent',
plugins: [
/* add to the end of plugins array */
esbuildProblemMatcherPlugin,
],
});
if (watch) {
await ctx.watch();
} else {
await ctx.rebuild();
await ctx.dispose();
}
}
/**
* @type {import('esbuild').Plugin}
*/
const esbuildProblemMatcherPlugin = {
name: 'esbuild-problem-matcher',
setup(build) {
build.onStart(() => {
console.log('[watch] build started');
});
build.onEnd((result) => {
result.errors.forEach(({ text, location }) => {
console.error(`✘ [ERROR] ${text}`);
console.error(` ${location.file}:${location.line}:${location.column}:`);
});
console.log('[watch] build finished');
});
}
};
main().catch(e => {
console.error(e);
process.exit(1);
});
The build script does the following:
- It creates a build context with esbuild. The context is configured to:
- Bundle the code in
src/extension.ts
into a single filedist/extension.js
. - Minify the code if the
--production
flag was passed. - Generate source maps unless the
--production
flag was passed. - Exclude the 'vscode' module from the bundle (since it's provided by the VS Code runtime).
- Bundle the code in
- Use the esbuildProblemMatcherPlugin plugin to report errors that prevented the bundler to complete. This plugin emits the errors in a format that is detected by the
esbuild
problem matcher with also needs to be installed as an extension. - If the
--watch
flag was passed, it starts watching the source files for changes and rebuilds the bundle whenever a change is detected.
esbuild can work directly with TypeScript files. However, esbuild simply strips off all type declarations without doing any type checks. Only syntax error are reported and can cause esbuild to fail.
For that reason, we separatly run the TypeScript compiler (tsc
) to check the types, but without emmiting any code (flag --noEmit
).
The scripts
section in package.json
now looks like that
"scripts": {
"compile": "npm run check-types && node esbuild.js",
"check-types": "tsc --noEmit",
"watch": "npm-run-all -p watch:*",
"watch:esbuild": "node esbuild.js --watch",
"watch:tsc": "tsc --noEmit --watch --project tsconfig.json",
"vscode:prepublish": "npm run package",
"package": "npm run check-types && node esbuild.js --production"
}
npm-run-all
is a node module that runs scripts in parallel whose name match a given prefix. For us, it runs the watch:esbuild
and watch:tsc
scripts. You need to add npm-run-all
to the devDependencies
section in package.json
.
The compile
and watch
scripts are for development and they produce the bundle file with source maps. The package
script is used by the vscode:prepublish
script which is used by vsce
, the VS Code packaging and publishing tool, and run before publishing an extension. Passing the --production
flag to the esbuild script will cause it to compress the code and create a small bundle, but also makes debugging hard, so other flags are used during development. To run above scripts, open a terminal and type npm run watch
or select Tasks: Run Task from the Command Palette (kb(workbench.action.showCommands)
).
If you configure .vscode/tasks.json
the following way, you will get a separate terminal for each watch task.
{
"version": "2.0.0",
"tasks": [
{
"label": "watch",
"dependsOn": [
"npm: watch:tsc",
"npm: watch:esbuild"
],
"presentation": {
"reveal": "never"
},
"group": {
"kind": "build",
"isDefault": true
}
},
{
"type": "npm",
"script": "watch:esbuild",
"group": "build",
"problemMatcher": "$esbuild-watch",
"isBackground": true,
"label": "npm: watch:esbuild",
"presentation": {
"group": "watch",
"reveal": "never"
}
},
{
"type": "npm",
"script": "watch:tsc",
"group": "build",
"problemMatcher": "$tsc-watch",
"isBackground": true,
"label": "npm: watch:tsc",
"presentation": {
"group": "watch",
"reveal": "never"
}
}
]
}
This watch tasks depends on the extension connor4312.esbuild-problem-matchers
for problem matching that you need to install for the task to report problems in the problems view. This extension needs to be installed for the launch to complete.
To not forget that, add a .vscode/extensions.json
file to the workspace:
{
"recommendations": ["connor4312.esbuild-problem-matchers"]
}
Finally, you will want to update your .vscodeignore
file so that compiled files are included in the published extension. Check out the Publishing section for more details.
Jump down to the Tests section to continue reading.
Using webpack
Webpack is a development tool that's available from npm. To acquire webpack and its command line interface, open the terminal and type:
npm i --save-dev webpack webpack-cli
This will install webpack and update your extension's package.json
file to include webpack in the devDependencies
.
Webpack is a JavaScript bundler but many VS Code extensions are written in TypeScript and only compiled to JavaScript. If your extension is using TypeScript, you can use the loader ts-loader
, so that webpack can understand TypeScript. Use the following to install ts-loader
:
npm i --save-dev ts-loader
All files are available in the webpack-extension sample.
Configure webpack
With all tools installed, webpack can now be configured. By convention, a webpack.config.js
file contains the configuration to instruct webpack to bundle your extension. The sample configuration below is for VS Code extensions and should provide a good starting point:
//@ts-check
'use strict';
const path = require('path');
const webpack = require('webpack');
/**@type {import('webpack').Configuration}*/
const config = {
target: 'webworker', // vscode extensions run in webworker context for VS Code web 📖 -> https://webpack.js.org/configuration/target/#target
entry: './src/extension.ts', // the entry point of this extension, 📖 -> https://webpack.js.org/configuration/entry-context/
output: { // the bundle is stored in the 'dist' folder (check package.json), 📖 -> https://webpack.js.org/configuration/output/
path: path.resolve(__dirname, 'dist'),
filename: 'extension.js',
libraryTarget: "commonjs2",
devtoolModuleFilenameTemplate: "../[resource-path]",
},
devtool: 'source-map',
externals: {
vscode: "commonjs vscode" // the vscode-module is created on-the-fly and must be excluded. Add other modules that cannot be webpack'ed, 📖 -> https://webpack.js.org/configuration/externals/
},
resolve: { // support reading TypeScript and JavaScript files, 📖 -> https://github.com/TypeStrong/ts-loader
mainFields: ['browser', 'module', 'main'], // look for `browser` entry point in imported node modules
extensions: ['.ts', '.js'],
alias: {
// provides alternate implementation for node module and source files
},
fallback: {
// Webpack 5 no longer polyfills Node.js core modules automatically.
// see https://webpack.js.org/configuration/resolve/#resolvefallback
// for the list of Node.js core module polyfills.
}
},
module: {
rules: [{
test: /\.ts$/,
exclude: /node_modules/,
use: [{
loader: 'ts-loader',
}]
}]
},
}
module.exports = config;
The file is available as part of the webpack-extension sample. Webpack configuration files are normal JavaScript modules that must export a configuration object.
In the sample above, the following are defined:
- The
target
indicates which context your extension will run. We recommend usingwebworker
so that your extension will work both in VS Code for web and VS Code desktop versions. - The entry point webpack should use. This is similar to the
main
property inpackage.json
except that you provide webpack with a "source" entry point, usuallysrc/extension.ts
, and not an "output" entry point. The webpack bundler understands TypeScript, so a separate TypeScript compile step is redundant. - The
output
configuration tells webpack where to place the generated bundle file. By convention, that is thedist
folder. In this sample, webpack will produce adist/extension.js
file. - The
resolve
andmodule/rules
configurations are there to support TypeScript and JavaScript input files. - The
externals
configuration is used to declare exclusions, for example files and modules that should not be included in the bundle. Thevscode
module should not be bundled because it doesn't exist on disk but is created by VS Code on-the-fly when required. Depending on the node modules that an extension uses, more exclusion may be necessary.
Finally, you will want to update your .vscodeignore
file so that compiled files are included in the published extension. Check out the Publishing section for more details.
Run webpack
With the webpack.config.js
file created, webpack can be invoked. You can run webpack from the command line but to reduce repetition, using npm scripts is helpful.
Merge these entries into the scripts
section in package.json
:
"scripts": {
"compile": "webpack --mode development",
"watch": "webpack --mode development --watch",
"vscode:prepublish": "npm run package",
"package": "webpack --mode production --devtool hidden-source-map",
},
The compile
and watch
scripts are for development and they produce the bundle file. The vscode:prepublish
is used by vsce
, the VS Code packaging and publishing tool, and run before publishing an extension. The difference is in the mode and that controls the level of optimization. Using production
yields the smallest bundle but also takes longer, so else development
is used. To run above scripts, open a terminal and type npm run compile
or select Tasks: Run Task from the Command Palette (kb(workbench.action.showCommands)
).
Run the extension
Before you can run the extension, the main
property in package.json
must point to the bundle, which for the configuration above is "./dist/extension"
. With that change, the extension can now be executed and tested.
Tests
Extension authors often write unit tests for their extension source code. With the correct architectural layering, where the extension source code doesn't depend on tests, the webpack and esbuild produced bundle shouldn't contain any test code. To run unit tests, only a simple compile is necessary.
Merge these entries into the scripts
section in package.json
:
"scripts": {
"compile-tests": "tsc -p . --outDir out",
"pretest": "npm run compile-tests",
"test": "vscode-test"
}
The compile-tests
script uses the TypeScript compiler to compile the extension into the out
folder. With that intermediate JavaScript available, the following snippet for launch.json
is enough to run tests.
{
"name": "Extension Tests",
"type": "extensionHost",
"request": "launch",
"runtimeExecutable": "${execPath}",
"args": [
"--extensionDevelopmentPath=${workspaceFolder}",
"--extensionTestsPath=${workspaceFolder}/out/test"
],
"outFiles": [
"${workspaceFolder}/out/test/**/*.js"
],
"preLaunchTask": "npm: compile-tests"
}
This configuration for running tests is the same for non-bundled extensions. There is no reason to bundle unit tests because they are not part of the published portion of an extension.
Publishing
Before publishing, you should update the .vscodeignore
file. Everything that's now bundled into the dist/extension.js
file can be excluded, usually the out
folder (in case you didn't delete it yet) and most importantly, the node_modules
folder.
A typical .vscodeignore
file looks like this:
.vscode
node_modules
out/
src/
tsconfig.json
webpack.config.js
esbuild.js
Migrate an existing extension
Migrating an existing extension to use esbuild or webpack is easy and similar to the getting started guide above. A real world sample that adopted webpack is the VS Code's References view through this pull request.
There you can see:
- Add
esbuild
resp.webpack
,webpack-cli
, andts-loader
asdevDependencies
. - Update npm scripts to use the bundlers as shown above
- Update the task configuration
tasks.json
file. - Add and tweak the
esbuild.js
orwebpack.config.js
build file. - Update
.vscodeignore
to excludenode_modules
and intermediate output files. - Enjoy an extension that installs and loads much faster!
Troubleshooting
Minification
Bundling in production
mode also performs code minification. Minification compacts source code by removing whitespace and comments and by changing variable and function names into something ugly but short. Source code that uses Function.prototype.name
works differently and so you might have to disable minification.
webpack critical dependencies
When running webpack, you might encounter a warning like Critical dependencies: the request of a dependency is an expression. Such warnings must be taken seriously and likely your bundle won't work. The message means that webpack cannot statically determine how to bundle some dependency. This is usually caused by a dynamic require
statement, for example require(someDynamicVariable)
.
To address the warning, you should either:
- Try to make the dependency static so that it can be bundled.
- Exclude that dependency via the
externals
configuration. Also make sure that those JavaScript files aren't excluded from the packaged extension, using a negated glob pattern in.vscodeignore
, for example!node_modules/mySpecialModule
.
Next steps
- Extension Marketplace - Learn more about VS Code's public Extension Marketplace.
- Testing Extensions - Add tests to your extension project to ensure high quality.
- Continuous Integration - Learn how to run extension CI builds on Azure Pipelines.