This plugin supports the use of Google's Closure Tools with webpack.
Note: This is the webpack 4 prelease branch.
Closure-Compiler is a full optimizing compiler and transpiler. It offers unmatched optimizations, provides type checking and can easily target transpilation to different versions of ECMASCRIPT.
Closure-Library is a utility library designed for full compatibility with Closure-Compiler.
For webpack 3 support, see https://github.com/webpack-contrib/closure-webpack-plugin/tree/webpack-3
You must install both the google-closure-compiler package as well as the closure-webpack-plugin.
npm install --save-dev closure-webpack-plugin@next google-closure-compiler@webpack-beta
const ClosurePlugin = require('closure-webpack-plugin');
module.exports = {
optimization: {
minimizer: [
new ClosurePlugin({mode: 'STANDARD'}, {
// compiler flags here
//
// for debuging help, try these:
//
// formatting: 'PRETTY_PRINT'
// debug: true,
// renaming: false
})
]
}
};
- platform -
native
,java
orjavascript
. Controls which version to use of closure-compiler. By default the plugin will attempt to automatically choose the fastest option available.JAVASCRIPT
does not require the JVM to be installed. Not all flags are supported.JAVA
utilizes the jvm. Utilizes multiple threads for parsing and results in faster compilation for large builds.NATIVE
only available on linux or MacOS. Faster compilation times without requiring a JVM.
- mode -
STANDARD
(default) orAGGRESSIVE_BUNDLE
. Controls how the plugin utilizes the compiler.STANDARD
mode, closure-compiler is used as a direct replacement for other minifiers as well as most Babel transformations.AGGRESSIVE_BUNDLE
mode, the compiler performs additional optimizations of modules to produce a much smaller file
- childCompilations - boolean or function. Defaults to
false
. In order to decrease build times, this plugin by default only operates on the main compilation. Plugins such as extract-text-plugin and html-webpack-plugin run as child compilations and usually do not need transpilation or minification. You can enable this for all child compilations by setting this option totrue
. For specific control, the option can be set to a function which will be passed a compilation object.
Example:function(compilation) { return /html-webpack/.test(compilation.name); }
. - output - An object with either
filename
orchunkfilename
properties. Used to override the output file naming for a particular compilation. See https://webpack.js.org/configuration/output/ for details.
The plugin controls several compiler flags. The following flags should not be used in any mode:
- module_resolution
- output_wrapper
- dependency_mode
- create_source_map
- module
- entry_point
In this mode, the compiler rewrites CommonJS modules and hoists require calls. Some modules are not compatible with this type of rewritting. In particular, hoisting will cause the following code to execute out of order:
const foo = require('foo');
addPolyfillToFoo(foo);
const bar = require('bar');
Aggressive Bundle Mode utilizes a custom runtime in which modules within a chunk file are all included in the same scope. This avoids the cost of small modules.
In Aggressive Bundle Mode, a file can only appear in a single output chunk. Use the Split Chunks Plugin to split duplicated files into a single output chunk. If a module is utilized by more than one chunk, the plugin will move it up to the first common parent to prevent code duplication.
The concatenatedModules optimization is not compatible with this mode since Closure-Compiler performs an equivalent optimization). The plugin will emit a warning if this optimization is not disabled.
You can add the plugin multiple times. This easily allows you to target multiple output languages.
Use ECMASCRIPT_2015
for modern browsers and ECMASCRIPT5
for older browsers.
Use the output
option to change the filenames of specific plugin instances.
Use <script type="module" src="es6_out_path.js">
to target modern browsers and
<script nomodule src="es5_out_path.js">
for older browsers.
See the es5 and es6 output demo for an example.
- Don't use babel at the same time - closure-compiler is also a transpiler. If you need features not yet supported by closure-compiler, have babel only target those features. Closure Compiler can transpile async/await - you don't need babel for that functionality either.
In order for webpack to recognize goog.require
, goog.provide
, goog.module
and related primitives,
a separate plugin is shipped.
const ClosurePlugin = require('closure-webpack-plugin');
module.exports = {
plugins: [
new ClosurePlugin.ClosureLibrary({
closureLibraryBase: require.resolve(
'google-closure-library/closure/goog/base'
),
deps: [
require.resolve('google-closure-library/closure/goog/deps'),
'./public/deps.js',
],
})
]
};
The plugin adds extra functionality to support using Closure Library without Closure Compiler.
This is typically used during development mode. When the webpack mode is production
,
only dependency information is provided to webpack as Closure Compiler will natively recognize
the Closure Library primitives.
The Closure Library Plugin is only compatible with the AGGRESSIVE_BUNDLE
mode of the Closure-Compiler
webpack plugin.
- closureLibraryBase - (optional) string. Path to the base.js file in Closure-Library.
- deps - (optional) string or Array. Closures style dependency mappings. Typically generated by the depswriter.py script included with Closure-Library.
- extraDeps - (optional) Object. Mapping of namespace to file path for closure-library provided namespaces.
Chad Killingsworth |
Joshua Wiens |