Originally, chunks (and modules imported inside them) were connected by a parent-child relationship in the internal webpack graph. The CommonsChunkPlugin
was used to avoid duplicated dependencies across them, but further optimizations were not possible.
Since webpack v4, the CommonsChunkPlugin
was removed in favor of optimization.splitChunks
.
Out of the box SplitChunksPlugin
should work well for most users.
By default it only affects on-demand chunks, because changing initial chunks would affect the script tags the HTML file should include to run the project.
Webpack will automatically split chunks based on these conditions:
node_modules
folderWhen trying to fulfill the last two conditions, bigger chunks are preferred.
Webpack provides a set of options for developers that want more control over this functionality.
This configuration object represents the default behavior of the SplitChunksPlugin
.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
chunks: 'async',
minSize: 20000,
minRemainingSize: 0,
minChunks: 1,
maxAsyncRequests: 30,
maxInitialRequests: 30,
enforceSizeThreshold: 50000,
cacheGroups: {
defaultVendors: {
test: /[\\/]node_modules[\\/]/,
priority: -10,
reuseExistingChunk: true,
},
default: {
minChunks: 2,
priority: -20,
reuseExistingChunk: true,
},
},
},
},
};
string = '~'
By default webpack will generate names using origin and name of the chunk (e.g. vendors~main.js
). This option lets you specify the delimiter to use for the generated names.
string = 'async'
function (chunk)
This indicates which chunks will be selected for optimization. When a string is provided, valid values are all
, async
, and initial
. Providing all
can be particularly powerful, because it means that chunks can be shared even between async and non-async chunks.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
// include all types of chunks
chunks: 'all',
},
},
};
Alternatively, you may provide a function for more control. The return value will indicate whether to include each chunk.
module.exports = {
//...
optimization: {
splitChunks: {
chunks(chunk) {
// exclude `my-excluded-chunk`
return chunk.name !== 'my-excluded-chunk';
},
},
},
};
number = 30
Maximum number of parallel requests when on-demand loading.
number = 30
Maximum number of parallel requests at an entry point.
[string] = ['javascript', 'unknown']
Sets the size types which are used when a number is used for sizes.
number = 1
The minimum times must a module be shared among chunks before splitting.
boolean
Prevents exposing path info when creating names for parts splitted by maxSize.
number = 20000
Minimum size, in bytes, for a chunk to be generated.
splitChunks.cacheGroups.{cacheGroup}.enforceSizeThreshold
number = 50000
Size threshold at which splitting is enforced and other restrictions (minRemainingSize, maxAsyncRequests, maxInitialRequests) are ignored.
splitChunks.cacheGroups.{cacheGroup}.minRemainingSize
number = 0
splitChunks.minRemainingSize
option was introduced in webpack 5 to avoid zero sized modules by ensuring that the minimum size of the chunk which remains after splitting is above a limit. Defaults to 0
in 'development' mode. For other cases splitChunks.minRemainingSize
defaults to the value of splitChunks.minSize
so it doesn't need to be specified manually except for the rare cases where deep control is required.
splitChunks.cacheGroups.{cacheGroup}.layer
RegExp
string
function
Assign modules to a cache group by module layer.
number = 0
Using maxSize
(either globally optimization.splitChunks.maxSize
per cache group optimization.splitChunks.cacheGroups[x].maxSize
or for the fallback cache group optimization.splitChunks.fallbackCacheGroup.maxSize
) tells webpack to try to split chunks bigger than maxSize
bytes into smaller parts. Parts will be at least minSize
(next to maxSize
) in size.
The algorithm is deterministic and changes to the modules will only have local effects. So that it is usable when using long term caching and doesn't require records. maxSize
is only a hint and could be violated when modules are bigger than maxSize
or splitting would violate minSize
.
When the chunk has a name already, each part will get a new name derived from that name. Depending on the value of optimization.splitChunks.hidePathInfo
it will add a key derived from the first module name or a hash of it.
maxSize
option is intended to be used with HTTP/2 and long term caching. It increases the request count for better caching. It could also be used to decrease the file size for faster rebuilding.
number
Like maxSize
, maxAsyncSize
can be applied globally (splitChunks.maxAsyncSize
), to cacheGroups (splitChunks.cacheGroups.{cacheGroup}.maxAsyncSize
), or to the fallback cache group (splitChunks.fallbackCacheGroup.maxAsyncSize
).
The difference between maxAsyncSize
and maxSize
is that maxAsyncSize
will only affect on-demand loading chunks.
number
Like maxSize
, maxInitialSize
can be applied globally (splitChunks.maxInitialSize
), to cacheGroups (splitChunks.cacheGroups.{cacheGroup}.maxInitialSize
), or to the fallback cache group (splitChunks.fallbackCacheGroup.maxInitialSize
).
The difference between maxInitialSize
and maxSize
is that maxInitialSize
will only affect initial load chunks.
boolean = false
function (module, chunks, cacheGroupKey) => string
string
Also available for each cacheGroup: splitChunks.cacheGroups.{cacheGroup}.name
.
The name of the split chunk. Providing false
will keep the same name of the chunks so it doesn't change names unnecessarily. It is the recommended value for production builds.
Providing a string or a function allows you to use a custom name. Specifying either a string or a function that always returns the same string will merge all common modules and vendors into a single chunk. This might lead to bigger initial downloads and slow down page loads.
If you choose to specify a function, you may find the chunk.name
and chunk.hash
properties (where chunk
is an element of the chunks
array) particularly useful in choosing a name for your chunk.
If the splitChunks.name
matches an entry point name, the entry point will be removed.
main.js
import _ from 'lodash';
console.log(_.join(['Hello', 'webpack'], ' '));
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
commons: {
test: /[\\/]node_modules[\\/]/,
// cacheGroupKey here is `commons` as the key of the cacheGroup
name(module, chunks, cacheGroupKey) {
const moduleFileName = module
.identifier()
.split('/')
.reduceRight((item) => item);
const allChunksNames = chunks.map((item) => item.name).join('~');
return `${cacheGroupKey}-${allChunksNames}-${moduleFileName}`;
},
chunks: 'all',
},
},
},
},
};
Running webpack with following splitChunks
configuration would also output a chunk of the group common with next name: commons-main-lodash.js.e7519d2bb8777058fa27.js
(hash given as an example of real world output).
splitChunks.cacheGroups{cacheGroup}.usedExports
boolean = true
Figure out which exports are used by modules to mangle export names, omit unused exports and generate more efficient code.
When it is true
: analyse used exports for each runtime, when it is "global"
: analyse exports globally for all runtimes combined).
Cache groups can inherit and/or override any options from splitChunks.*
; but test
, priority
and reuseExistingChunk
can only be configured on cache group level. To disable any of the default cache groups, set them to false
.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
default: false,
},
},
},
};
splitChunks.cacheGroups.{cacheGroup}.priority
number = -20
A module can belong to multiple cache groups. The optimization will prefer the cache group with a higher priority
. The default groups have a negative priority to allow custom groups to take higher priority (default value is 0
for custom groups).
splitChunks.cacheGroups.{cacheGroup}.reuseExistingChunk
boolean = true
If the current chunk contains modules already split out from the main bundle, it will be reused instead of a new one being generated. This can affect the resulting file name of the chunk.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
defaultVendors: {
reuseExistingChunk: true,
},
},
},
},
};
splitChunks.cacheGroups.{cacheGroup}.type
function
RegExp
string
Allows to assign modules to a cache group by module type.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
json: {
type: 'json',
},
},
},
},
};
splitChunks.cacheGroups.{cacheGroup}.test
function (module, { chunkGraph, moduleGraph }) => boolean
RegExp
string
Controls which modules are selected by this cache group. Omitting it selects all modules. It can match the absolute module resource path or chunk names. When a chunk name is matched, all modules in the chunk are selected.
Providing a function to{cacheGroup}.test
:
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
svgGroup: {
test(module) {
// `module.resource` contains the absolute path of the file on disk.
// Note the usage of `path.sep` instead of / or \, for cross-platform compatibility.
const path = require('path');
return (
module.resource &&
module.resource.endsWith('.svg') &&
module.resource.includes(`${path.sep}cacheable_svgs${path.sep}`)
);
},
},
byModuleTypeGroup: {
test(module) {
return module.type === 'javascript/auto';
},
},
},
},
},
};
In order to see what information is available in module
and chunks
objects, you can put debugger;
statement in the callback. Then run your webpack build in debug mode to inspect the parameters in Chromium DevTools.
Providing a RegExp
to {cacheGroup}.test
:
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
defaultVendors: {
// Note the usage of `[\\/]` as a path separator for cross-platform compatibility.
test: /[\\/]node_modules[\\/]|vendor[\\/]analytics_provider|vendor[\\/]other_lib/,
},
},
},
},
};
splitChunks.cacheGroups.{cacheGroup}.filename
string
function (pathData, assetInfo) => string
Allows to override the filename when and only when it's an initial chunk.
All placeholders available in output.filename
are also available here.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
defaultVendors: {
filename: '[name].bundle.js',
},
},
},
},
};
And as a function:
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
defaultVendors: {
filename: (pathData) => {
// Use pathData object for generating filename string based on your requirements
return `${pathData.chunk.name}-bundle.js`;
},
},
},
},
},
};
It is possible to create a folder structure by providing path prefixing the filename: 'js/vendor/bundle.js'
.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
defaultVendors: {
filename: 'js/[name]/bundle.js',
},
},
},
},
};
splitChunks.cacheGroups.{cacheGroup}.enforce
boolean = false
Tells webpack to ignore splitChunks.minSize
, splitChunks.minChunks
, splitChunks.maxAsyncRequests
and splitChunks.maxInitialRequests
options and always create chunks for this cache group.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
defaultVendors: {
enforce: true,
},
},
},
},
};
splitChunks.cacheGroups.{cacheGroup}.idHint
string
Sets the hint for chunk id. It will be added to chunk's filename.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
defaultVendors: {
idHint: 'vendors',
},
},
},
},
};
// index.js
import('./a'); // dynamic import
// a.js
import 'react';
//...
Result: A separate chunk would be created containing react
. At the import call this chunk is loaded in parallel to the original chunk containing ./a
.
Why:
node_modules
react
is bigger than 30kbWhat's the reasoning behind this? react
probably won't change as often as your application code. By moving it into a separate chunk this chunk can be cached separately from your app code (assuming you are using chunkhash, records, Cache-Control or other long term cache approach).
// entry.js
// dynamic imports
import('./a');
import('./b');
// a.js
import './helpers'; // helpers is 40kb in size
//...
// b.js
import './helpers';
import './more-helpers'; // more-helpers is also 40kb in size
//...
Result: A separate chunk would be created containing ./helpers
and all dependencies of it. At the import calls this chunk is loaded in parallel to the original chunks.
Why:
helpers
is bigger than 30kbPutting the content of helpers
into each chunk will result into its code being downloaded twice. By using a separate chunk this will only happen once. We pay the cost of an additional request, which could be considered a tradeoff. That's why there is a minimum size of 30kb.
Create a commons
chunk, which includes all code shared between entry points.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
commons: {
name: 'commons',
chunks: 'initial',
minChunks: 2,
},
},
},
},
};
Create a vendors
chunk, which includes all code from node_modules
in the whole application.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
commons: {
test: /[\\/]node_modules[\\/]/,
name: 'vendors',
chunks: 'all',
},
},
},
},
};
Create a custom vendor
chunk, which contains certain node_modules
packages matched by RegExp
.
webpack.config.js
module.exports = {
//...
optimization: {
splitChunks: {
cacheGroups: {
vendor: {
test: /[\\/]node_modules[\\/](react|react-dom)[\\/]/,
name: 'vendor',
chunks: 'all',
},
},
},
},
};