esbuild

module

v0.0.0-...-4287e6e Latest Latest Go to latest Published: Apr 12, 2020 License: MIT

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Repository

github.com/jschaf/esbuild

README ¶

esbuild

This is a JavaScript bundler and minifier. It packages up JavaScript code for distribution on the web.

Why?

Why build another JavaScript build tool? The current build tools for the web are at least an order of magnitude slower than they should be. I'm hoping that this project serves as an "existence proof" that our JavaScript tooling can be much, much faster.

Benchmarks

The use case I have in mind is packaging a large codebase for production. This includes minifying the code, which reduces network transfer time, and producing source maps, which are important for debugging errors in production. Ideally the build tool should also build quickly without having to warm up a cache first.

My main benchmark approximates a large codebase by duplicating the three.js library 10 times and building a single bundle from scratch, without any caches. For this benchmark, esbuild is 10-100x faster than the other JavaScript bundlers I tested (Webpack, Rollup, Parcel, and FuseBox). The benchmark can be run with make bench-three.

Bundler	Time	Relative slowdown	Absolute speed	Output size
esbuild	0.54s	1x	1013.8 kloc/s	5.83mb
rollup + terser	40.48s	75x	13.5 kloc/s	5.80mb
webpack	46.46s	86x	11.8 kloc/s	5.97mb
parcel	124.65s	231x	4.4 kloc/s	5.90mb
fuse-box@next	172.56s	320x	3.2 kloc/s	6.55mb

Each time reported is the best of three runs. I'm running esbuild with --bundle --minify --sourcemap. I used the rollup-plugin-terser plugin because rollup itself doesn't support minification. Webpack uses --mode=production --devtool=sourcemap. Parcel uses the default options. FuseBox is configured with useSingleBundle: true. Absolute speed is based on the total line count including comments and blank lines, which is currently 547,441. The tests were done on a 6-core 2019 MacBook Pro with 16gb of RAM.

Why is it fast?

Several reasons:

It's written in Go, a language that compiles to native code
Parsing, printing, and source map generation are all fully parallelized
Everything is done in very few passes without expensive data transformations
Code is written with speed in mind, and tries to avoid unnecessary allocations

Status

Currently supported:

CommonJS modules
ES6 modules
Bundling with static binding of ES6 modules using --bundle
Full minification with --minify (whitespace, identifiers, and mangling)
Full source map support when --sourcemap is enabled
JSX-to-JavaScript conversion for .jsx files
Compile-time identifier substitutions via --define
Path substitution using the browser field in package.json
Automatic detection of baseUrl in tsconfig.json

This is a hobby project that I wrote over the 2019-2020 winter break. I believe that it's relatively complete and functional. However, it's brand new code and probably has a lot of bugs. It also hasn't yet been used in production by anyone. Use at your own risk.

Also keep in mind that this doesn't have complete support for lowering modern language syntax to earlier language versions. Right now only class fields and the nullish coalescing operator are lowered.

I don't personally want to run a large open source project, so I'm not looking for contributions at this time.

Install

A prebuilt binary can be installed using npm:

Local install (recommended)

This installs the esbuild command locally in your project's package.json file:
```
npm install --save-dev esbuild
```
Invoke it using npx esbuild [arguments]. Note that this uses the npx package runner command, not the npm package manager command.

This is the recommended project-based workflow because it allows you to have a different version of esbuild for each project and it ensures that everyone working on a given project has the same version of esbuild.
Global install

This adds a global command called esbuild to your path:
```
npm install -g esbuild
```
Invoke it using esbuild [arguments].

A global install can be handy if you want to run esbuild outside of a project context for one-off file manipulation tasks.

The esbuild package should work on 64-bit macOS, Linux, and Windows systems. It contains an install script that downloads the appropriate package for the current platform. If the install script isn't working or you need to run esbuild on an unsupported platform, there is a fallback WebAssembly package called esbuild-wasm that should work on all platforms.

For development, the executable can be built by running make (assuming you have the Go language toolchain installed).

Usage

The command-line interface takes a list of entry points and produces one bundle file per entry point. Here are the available options:

Usage:
  esbuild [options] [entry points]

Options:
  --name=...            The name of the module
  --bundle              Bundle all dependencies into the output files
  --outfile=...         The output file (for one entry point)
  --outdir=...          The output directory (for multiple entry points)
  --sourcemap           Emit a source map
  --error-limit=...     Maximum error count or 0 to disable (default 10)
  --target=...          Language target (default esnext)
  --loader:X=L          Use loader L to load file extension X, where L is
                        one of: js, jsx, json, text, base64

  --minify              Sets all --minify-* flags
  --minify-whitespace   Remove whitespace
  --minify-identifiers  Shorten identifiers
  --minify-syntax       Use equivalent but shorter syntax

  --define:K=V          Substitute K with V while parsing
  --jsx-factory=...     What to use instead of React.createElement
  --jsx-fragment=...    What to use instead of React.Fragment

  --trace=...           Write a CPU trace to this file
  --cpuprofile=...      Write a CPU profile to this file

Examples:
  # Produces dist/entry_point.js and dist/entry_point.js.map
  esbuild --bundle entry_point.js --outdir=dist --minify --sourcemap

  # Allow JSX syntax in .js files
  esbuild --bundle entry_point.js --outfile=out.js --loader:.js=jsx

  # Substitute the identifier RELEASE for the literal true
  esbuild example.js --outfile=out.js --define:RELEASE=true

Using with React

To use esbuild with React:

Either put all JSX syntax in .jsx files instead of .js files, or use --loader:.js=jsx to use the JSX loader for .js files.
If you're using TypeScript, run tsc first to convert .tsx files into either .jsx or .js files.
If you're using esbuild to bundle React yourself instead of including it with a <script> tag in your HTML, you'll need to pass '--define:process.env.NODE_ENV="development"' or '--define:process.env.NODE_ENV="production"' to esbuild on the command line.
If you're using Preact instead of React, you'll also need to pass --jsx-factory=preact.h --jsx-fragment=preact.Fragment to esbuild on the command line.

For example, if you have a file called example.jsx with the following contents:

import * as React from 'react'
import * as ReactDOM from 'react-dom'

ReactDOM.render(
  <h1>Hello, world!</h1>,
  document.getElementById('root')
);

Use this for a development build:

esbuild example.jsx --bundle '--define:process.env.NODE_ENV="development"' --outfile=out.js

Use this for a production build:

esbuild example.jsx --bundle '--define:process.env.NODE_ENV="production"' --minify --outfile=out.js

Directories ¶

Path	Synopsis
cmd
esbuild
pkg
ast
bundler
fs
lexer
logging
parser
printer
resolver

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