General direction
This release focus on the following:
- We try to improve build performance with Persistent Caching.
- We try to improve Long Term Caching with better algorithms and defaults.
- We try to improve bundle size with better Tree Shaking and Code Generation.
- We try to improve compatiblity to the web platform.
- We try to clean up internal structures that were left in a weird state while implementing features in v4 without introducing any breaking changes.
- We try to prepare for future features by introducing breaking changes now, allowing us to stay on v5 for as long as possible.
Migration Guide
=> see here for a migration guide <=
Major Changes: Removals
Removed Deprecated Items
All items deprecated in v4 were removed.
MIGRATION: Make sure that your webpack 4 build does not print deprecation warnings.
Here are a few things that were removed but did not have deprecation warnings in v4:
- IgnorePlugin and BannerPlugin must now be passed only one argument that can be an object, string or function.
Deprecation codes
New deprecations include a deprecation code so they are easier to reference.
Syntax deprecated
require.include
has been deprecated and will emit a warning by default when used.
Behavior can be changed with Rule.parser.requireInclude
to allowed, deprecated or disabled.
Automatic Node.js Polyfills Removed
In the early days, webpack's aim was to allow running most node.js modules in the browser, but the module landscape changed and many module uses are now written mainly for frontend purposes. webpack <= 4 ships with polyfills for many of the node.js core modules, which are automatically applied once a module uses any of the core modules (i.e. the crypto
module).
While this makes using modules written for node.js easy, it adds these huge polyfills to the bundle. In many cases these polyfills are unnecessary.
webpack 5 stops automatically polyfilling these core modules and focus on frontend-compatible modules.
MIGRATION:
- Try to use frontend-compatible modules whenever possible.
- It's possible to manually add a polyfill for a node.js core module. An error message will give a hint on how to achieve that.
- Package authors: Use the
browser
field inpackage.json
to make a package frontend-compatible. Provide alternative implementations/dependencies for the browser.
Major Changes: Long Term Caching
Deterministic Chunk, Module IDs and Export names
New algorithms were added for long term caching. These are enabled by default in production mode.
chunkIds: "deterministic", moduleIds: "deterministic", mangleExports: "deterministic"
The algorithms assign short (3 or 4 characters) numeric IDs to modules and chunks and short (2 characters) names to exports in a deterministic way. This is a trade-off between bundle size and long term caching.
moduleIds/chunkIds/mangleExports: false
disables the default behavior and one can provide a custom algorithm via plugin. Note that in webpack 4 moduleIds/chunkIds: false
without custom plugin resulted in a working build, while in webpack 5 you must provide a custom plugin.
MIGRATION: Best use the default values for chunkIds
, moduleIds
and mangleExports
. You can also opt-in to the old defaults chunkIds: "size", moduleIds: "size", mangleExports: "size"
, this will generate smaller bundles, but invalidate them more often for caching.
Note: In webpack 4 hashed module ids yielded reduced gzip performance. This was related to changed module order and has been fixed.
Note: In webpack 5, deterministic
Ids are enabled by default in production mode
Real Content Hash
Webpack 5 will use a real hash of the file content when using [contenthash]
now. Before it "only" used a hash of the internal structure.
This can be positive impact on long term caching when only comments are changed or variables are renamed. These changes are not visible after minimizing.
Major Changes: Development Support
Named Chunk IDs
A new named chunk id algorithm enabled by default in development mode gives chunks (and filenames) human-readable names.
A Module ID is determined by its path, relative to the context
.
A Chunk ID is determined by the chunk's content.
So you no longer need to use import(/* webpackChunkName: "name" */ "module")
for debugging.
But it would still make sense if you want to control the filenames for production environments.
It's possible to use chunkIds: "named"
in production, but make sure not to accidentally expose sensitive information about module names.
MIGRATION: If you dislike the filenames being changed in development, you can pass chunkIds: "natural"
to use the old numeric mode.
Module Federation
Webpack 5 adds a new feature called "Module Federation", which allows multiple webpack builds to work together. From runtime perspective modules form multiple builds will behave like a huge connected module graph. From developer persepective modules can be imported from specified remote builds and used with minimal restrictions.
For more details see this separate guide.
Major Changes: New Web Platform Features
JSON modules
JSON modules now align with the spec and emit a warning when using a non-default export. JSON modules no longer have named exports when importing from a strict EcmaScript module.
MIGRATION: Use the default export.
Unused properties are dropped by the optimization.usedExports
optimization and properties are mangled by the optimization.mangleExports
optimization.
It's possible to specify a custom JSON parser in Rule.parser.parse
to import JSON-like files (e. g. for toml, yaml, json5, etc.).
Asset modules
Webpack 5 has now native support for modules representing assets. These modules will either emit a file into the output folder or inject a DataUri into the javascript bundle. Either way they give a URL to work with.
They can be used via multiple ways:
import url from "./image.png"
and settingstype: "asset"
inmodule.rules
when matching such import.new URL("./image.png", import.meta.url)
The syntax is chosen to allow running code without bundler too.
import.meta
import.meta.webpackHot
is an alias formodule.hot
which is also available in strict ESMimport.meta.webpack
is the webpack major version as numberimport.meta.url
is thefile:
url of the current file (similar to__filename
but as file url)
Native Worker support
When combining new URL
for assets with new Worker
/new SharedWorker
/navigator.serviceWorker.register
webpack will automatically create a new entrypoint for a web worker.
new Worker(new URL("./worker.js", import.meta.url))
The syntax is chosen to allow running code without bundler too.
Uris
Webpack 5 support handling of protocols in request.
data:
is supported. Base64 or raw encoding is supported. Mimetype can be mapped to loaders and module type inmodule.rules
. Example:import x from "data:text/javascript,export default 42"
file:
is supported.http(s):
is supported, but requires opt-in vianew webpack.experiments.schemesHttp(s)UriPlugin()
Fragments in requests are supported: Example: ./file.js#fragment
Async modules
Webpack 5 supports so called "async modules". That are modules that do not evaluate synchronously, but are async and Promise-based instead.
Importing them via import
is automatically handled and no additional syntax is needed and difference is hardly notice-able.
Importing them via require()
will return a Promise that resolves to the exports.
In webpack there are multiple ways to have async modules:
- async externals
- WebAssembly Modules in the new spec
- EcmaScript Modules that are using Top-Level-Await
Externals
Webpack 5 adds additional external types to cover more applications:
promise
: An expression that evaluates to a Promise. The external module is an async module and the resolved value is used as module exports.
import
: Native import()
is used to load the specified request. The external module is an async module.
script
: Loads a url via <script>
tag and gets the exports from a global variable (and optionally properties of it). The external module is an async module.
Major Changes: New Node.js Ecosystem Features
Resolving
The exports
and imports
field in package.json is now supported.
Yarn PnP is supported natively.
See more details in TODO.
Major Changes: Development Experience
Improved target
Webpack 5 allows to pass a list of targets and also support versions of target.
Examples: target: "node14"
target: ["web", "es2020"]
This is a simple way to provide webpack all the information it needs to determine:
- chunk loading mechnism, and
- supported syntax like arrow functions
Stats
The Stats test format has been improve regarding readablility and verbosity. The defaults has been improved to be less verbose and also suitable for large builds.
- Chunk relations are hidden by default now. This can be toggled with
stats.chunkRelations
. - Stats differentiate between
files
andauxiliaryFiles
now. - Stats hide module and chunk ids by default now. This can be toggled with
stats.ids
. - The list of all modules is sorted by distance to entrypoint now. This can be changed with
stats.modulesSort
. - The list of chunk modules is sorted by module name now. This can be changed with
stats.chunkModulesSort
. - The list of nested modules in concatenated modules is sorted topologically now. This can be changed with
stats.nestedModulesSort
. - Chunks and Assets show chunk id hints now.
- Assets and modules will display in a tree instead of a list/table.
- General information is shown in a summary at the end now. It shows webpack version, config name and warnings/errors count.
- Hash is hidden by default now. This can be changed with
stats.hash
. - Timestamp of build is no longer shown by default. This can be enabled with
stats.builtAt
. It will show the timestamp in the summary. - Child compilations will no longer shown by default. They can be displayed with
stats.children
.
Progress
A few improvements have been done to the ProgressPlugin
which is used for --progress
by the CLI, but can also be used manually as plugin.
It used to only count the processed modules. Now it can count entries
dependencies
and modules
.
All of them are shown by default now.
It used to display the currently processed module. This caused much stderr output and yielded a performance problem on some consoles.
This is now disabled by default (activeModules
option). This also reduces the amount of spam on the console.
Now writing to stderr during building modules is throttled to 500ms.
The profiling mode also got an upgrade and will display timings of nested progress messages. This makes it easier to figure out while plugin is causing performance problems.
A newly added percentBy
-option tells ProgressPlugin
how to calculate progress percentage.
new webpack.ProgressPlugin({ percentBy: "entries" });
To make progress percentage more accurate ProgressPlugin
caches the last known total modules count and reuses this value on the next build. The first build will warm the cache but the following builds will use and update this value.
Automatic unique naming
In webpack 4 multiple webpack runtimes could conflict on the same page, because they use the same global variable for chunk loading. To fix that it was needed to provide a custom name to the output.jsonpFunction
configuration.
Webpack 5 does automatically infer a unique name for the build from package.json
name
and uses this as default for output.uniqueName
.
This value is used to make all potentical conflicting globals unique.
MIGRATION: Consider removing output.jsonpFunction
.
Automatic public path
Webpack 5 will determine the output.publicPath
automatically when possible.
Typescript typings
Webpack 5 generates typescript typings from source code and exposes them via the npm package.
MIGRATION: Remove @types/webpack
. Update references when names differ.
Major Changes: Optimization
Nested tree-shaking
webpack is now able to track access to nested properties of exports. This can improve Tree Shaking (Unused export elimination and export mangling) when reexporting namespace objects.
// inner.js
export const a = 1;
export const b = 2;
// module.js
import * as inner from "./inner";
export { inner }
// user.js
import * as module from "./module";
console.log(module.inner.a);
In this example, the export b
can be removed in production mode.
Inner-module tree-shaking
webpack 4 didn't analyze dependencies between exports and imports of a module. webpack 5 has a new option optimization.innerGraph
, which is enabled by default in production mode, that runs an analysis on symbols in a module to figure out dependencies from exports to imports.
In a module like this:
import { something } from "./something";
function usingSomething() {
return something;
}
export function test() {
return usingSomething();
}
The inner graph algorithm will figure out that something
is only used when the test
export is used. This allows to flag more exports as unused and to omit more code from the bundle.
When "sideEffects": false
is set, this allows to omit even more modules. In this example ./something
will be omitted when the test
export is unused.
To get the information about unused exports optimization.unusedExports
is required. To remove side-effect-free modules optimization.sideEffects
is required.
The following symbols can be analysed:
- function declarations
- class declarations
export default
with or variable declarations with- function expressions
- class expressions
- sequence expressions
/*#__PURE__*/
expressions- local variables
- imported bindings
FEEDBACK: If you find something missing in this analysis, please report an issue and we consider adding it.
Using eval()
will bail-out this optimization for a module, because evaled code could reference any symbol in scope.
This optimization is also known as Deep Scope Analysis.
CommonJs Tree Shaking
webpack used to opt-out from used exports analysing for CommonJs exports and require()
calls.
webpack 5 adds support for some CommonJs constructs, allows to eliminate unused CommonJs exports and track referenced export names from require()
calls.
The following constructs are supported:
exports|this|module.exports.xxx = ...
exports|this|module.exports = require("...")
(reexport)exports|this|module.exports.xxx = require("...").xxx
(reexport)Object.defineProperty(exports|this|module.exports, "xxx", ...)
require("abc").xxx
require("abc").xxx()
- importing from ESM
require()
a ESM- flagged exportType (special handling for non-strict ESM import):
Object.defineProperty(exports|this|module.exports, "__esModule", { value: true|!0 })
exports|this|module.exports.__esModule = true|!0
When detecting not analysable code, webpack bails out and doesn't track export information at all for these modules (for performance reasons).
Optimization per runtime
Webpack 5 is now able (and does by default) to analyse and optimize modules per runtime (A runtime is often equal to an entrypoint). This allows to only exports in these entrypoints where they are really needed. Entrypoints doesn't affect each other (as long as using a runtime per entrypoint)
Module Concatenation
Module Concatenation also works per runtime to allow different concatenation for each runtime.
Module Concatenation has become a first class citizen and any module and dependency is now allowed to implement it. Initially webpack 5 already added support for ExternalModules and json modules, more will likely ship soonish.
General Tree Shaking improvements
export *
has been improved to track more info and do no longer flag the default
export as used.
export *
will now show warnings when webpack is sure that there are conflicting exports.
import()
allows to manually tree shake the module via /* webpackExports: ["abc", "default"] */
magic comment.
Development Production Similarity
We try to find a good trade-off between build performance in development mode and avoiding production-only problems by improving the similarity between both modes.
Webpack 5 enables the sideEffects
optimization by default in both modes. In webpack 4 this optimization lead to some production-only errors because of an incorrect "sideEffects"
flag in package.json. Enabling this optimization in development allows to find these problems faster and easier.
In many cases development and production happen on different OS with different case-sensitivity of filesystem, so webpack 5 adds a few more warnings/errors when there is something weird casing-wise.
Improved Code Generation
There are now options in output.environment
now.
They allows specifying which EcmaScript feature can be used for runtime code generated by webpack.
One usually do not specify this option directly, but would use the target
option instead.
webpack 4 used to only emit ES5 code. webpack 5 can generate both ES5 and ES6/ES2015 code now.
Supporting only modern browsers will generate shorter code using arrow functions and more spec-comform code using const
declarations with TDZ for export default
.
target
option
Improved In webpack 4 the target
was a very rough choice between "web"
and "node"
(and a few others).
Webpack 5 gives you more options here.
The target
option now influences more things about the generated code than before:
- method of chunk loading
- format of chunks
- method of wasm loading
- method of chunk and wasm loading in workers
- global object used
- if publicPath should be determined automatically
- EcmaScript features/syntax used in the generated code
externals
enabled by default- Behavior of some node.js compat layers (
global
,__filename
,__dirname
) - Resolving of modules (
browser
field,exports
andimports
conditions) - Some loaders might change behavior based on that
For some of these things the choice between "web"
and "node"
is too rough and we need more information.
Therefore we allow to specify the minimum version e. g. like "node10.13"
and infer more properties about the target environment.
It's now also allowed to combined multiple targets with an array and webpack will determine the minimum properties of all targets. Using an array is also useful when using targets that doesn't give full information like "web"
or "node"
(without version number). E. g. ["web", "es2020"]
combines these two partial targets.
There is a target "browserslist"
which will use browserslist data to determine properties of the environment.
This target is also used by default when there is a browserslist config available in the project. When none such config is available, the "web"
target will be used by default.
Some combinations and features are not yet implemented and will result in errors. They are preparations for future features. Examples:
["web", "node"]
will lead to an universal chunk loading method, which is not implemented yet["web", "node"]
+output.module: true
will lead to a module chunk loading method, which is not implemented yet"web"
will lead tohttp(s):
imports being treated asmodule
externals, which are not implemented yet (Workaround:externalsPresets: { web: false, webAsync: true }
, which will useimport()
instead).
SplitChunks and Module Sizes
Modules now express size in a better way than displaying a single number. Also, there are now different types of sizes.
The SplitChunksPlugin now knows how to handle these different sizes and uses them for minSize
and maxSize
.
By default, only javascript
size is handled, but you can now pass multiple values to manage them:
minSize: {
javascript: 30000,
style: 50000,
}
MIGRATION: Check which types of sizes are used in your build and configure these in splitChunks.minSize
and optionally in splitChunks.maxSize
.
Major Changes: Performance
Persistent Caching
There is now a filesystem cache. It's opt-in and can be enabled with the following configuration:
cache: {
// 1. Set cache type to filesystem
type: "filesystem",
buildDependencies: {
// 2. Add your config as buildDependency to get cache invalidation on config change
config: [__filename]
// 3. If you have other things the build depends on you can add them here
// Note that webpack, loaders and all modules referenced from your config are automatically added
}
}
Important notes:
By default, webpack assumes that the node_modules
directory, which webpack is inside of, is only modified by a package manager. Hashing and timestamping is skipped for node_modules
. Instead, only the package name and version is used for performance reasons. Symlinks (i. e. npm/yarn link
) are fine. Do not edit files in node_modules
directly unless you opt-out of this optimization with snapshot.managedPaths: []
. When using Yarn PnP webpack assumes that the yarn cache is immutable (which it usually is). You can opt-out of this optimization with snapshot.immutablePaths: []
The cache will be stored into node_modules/.cache/webpack
(when using node_modules) resp. .yarn/.cache/webpack
(when using Yarn PnP) by default. You probably never have to delete it manually.
Many internal plugins will use the Persistent Cache too. Examples: SourceMapDevToolPlugin
(to cache the SourceMap generation), ProgressPlugin
(to cache the number of modules)
The Persistent Cache will automatically create multiple cache files depending on usage to optimize read and write access to and from the cache.
Compiler Idle and Close
Compilers now need to be closed after being used. Compilers now enter and leave the idle state and have hooks for these states. Plugins may use these hooks to do unimportant work. (i. e. the Persistent cache slowly stores the cache to disk). On compiler close - All remaining work should be finished as fast as possible. A callback signals the closing as done.
Plugins and their respective authors should expect that some users may forget to close the Compiler. So, all work should eventually be finishing while in idle too. Processes should be prevented from exiting when the work is being done.
The webpack()
facade automatically calls close
when being passed a callback.
MIGRATION: While using the node.js API, make sure to call Compiler.close
when done.
File Emitting
webpack used to always emit all output files during the first build but skipped writing unchanged files during incremental (watch) builds. It is assumed that nothing else changes output files while webpack is running.
With Persistent Caching added a watch-like experience should be given even when restarting the webpack process, but it would be a too strong assumption to think that nothing else changes the output directory even when webpack is not running.
So webpack will now check existing files in the output directory and compares their content with the output file in memory. It will only write the file when it has been changed. This is only done on the first build. Any incremental build will always write the file when a new asset has been generated in the running webpack process.
We assume that webpack and plugins only generate new assets when content has been changed. Caching should be used to ensure that no new asset is generated when input is equal. Not following this advice will degrade performance.
Files that are flagged as immutable
(including a content hash), will never be written when a file with the same name already exists.
We assume that the content hash will change when file content changes. This is true in general, but might not be always true during webpack or plugin development.
Major Changes: Long outstanding problems
Node.js target
In webpack 4 some features were not available e. g. for the Node.js target. Some of them are now available.
SplitChunks in initial chunks was not possible for node.js as multiple initial files couldn't be loaded. It's now possible. The entry files will now load the additional files and also the runtime chunk.
SplitChunks for single-file-targets
Targets that only allow to startup a single file (like node, WebWorker, electron main) now supports loading the dependent pieces required for bootstrap automatically by the runtime.
This allows using splitChunks
for these targets with chunks: "all"
.
Note that since chunk loading is async, this makes initial evaluation async too. This can be an issue when using output.library
, since the exported value is a Promise now. Since alpha.14 this does not apply to target: "node"
since chunk loading is sync here.
Updated Resolver
enhanced-resolve
was updated to v5. This has the following improvements:
- The resolve tracks more dependencies, like missing files
- aliasing may have multiple alternatives
- aliasing to
false
is possible now - Increased performance
Chunks without JS
Chunks that contain no JS code, will no longer generate a JS file.
Major Changes: Future
Experiments
Not all features are stable from the beginning. In webpack 4 we added experimental features and noted in the changelog that they are experimental, but it was not always clear from the configuration that these features are experimental.
In webpack 5 there is a new experiments
config option which allows to enabled experimental features. This makes it clear which ones are enabled/used.
While webpack follows semantic versioning, it will make an exception for experimental features. Experimental features might contain breaking changes in minor webpack versions. When this happens we will add a clear note into the changelog. This will allow us to iterate faster for experimental features, while also allowing us to stay longer on a major version for stable features.
The following experiments will ship with webpack 5:
- Old WebAssembly support like in webpack 4 (
experiments.syncWebAssembly
) - New WebAssembly support according to the updated spec (
experiments.asyncWebAssembly
)- This makes a WebAssembly module an async module
- Top Level Await Stage 3 proposal (
experiments.topLevelAwait
)- Using
await
on top-level makes the module an async module
- Using
- Emitting bundle as module (
experiments.outputModule
)- This removed the wrapper IIFE from the bundle, enforces strict mode, lazy loads via
<script type="module">
and minimized in module mode
- This removed the wrapper IIFE from the bundle, enforces strict mode, lazy loads via
Note that this also means WebAssembly support is now disabled by default.
Minimum Node.js Version
The minimum supported node.js version has increased from 6 to 10.13.0(LTS).
MIGRATION: Upgrade to the latest node.js version available.
Changes to the Configuration
Changes to the Structure
entry: {}
allows an empty object now (to allow to use plugins to add entries)target
supports an array, versions and browserslistcache: Object
removed: Setting to a memory-cache object is no longer possiblecache.type
added: It's now possible to choose between"memory"
and"filesystem"
- New configuration options for
cache.type = "filesystem"
added:cache.cacheDirectory
cache.name
cache.version
cache.store
cache.hashAlgorithm
cache.idleTimeout
cache.idleTimeoutForIntialStore
cache.buildDependencies
snapshot.resolveBuildDependencies
addedsnapshot.resolve
addedsnapshot.module
addedsnapshot.managedPaths
addedsnapshot.immutablePaths
addedresolve.cache
added: Allows to disable/enable the safe resolve cacheresolve.concord
removedresolve.alias
values can be arrays orfalse
nowresolve.restrictions
added: Allows to restrict potential resolve resultsresolve.fallback
added: Allow to alias requests that failed to resolveresolve.preferRelative
added: Allows to resolve modules requests are relative requests too- Automatic polyfills for native node.js modules were removed
node.Buffer
removednode.console
removednode.process
removednode.*
(node.js native module) removed- MIGRATION:
resolve.alias
andProvidePlugin
. Errors will give hints. (Refer to node-libs-browser for polyfills & mocks used in v4)
output.filename
can now be a functionoutput.assetModuleFilename
addedoutput.jsonpScriptType
renamed tooutput.scriptType
devtool
is more strict- Format:
false | eval | [inline-|hidden-|eval-][nosources-][cheap-[module-]]source-map
- Format:
optimization.chunkIds: "deterministic"
addedoptimization.moduleIds: "deterministic"
addedoptimization.moduleIds: "hashed"
deprecatedoptimization.moduleIds: "total-size"
removed- Deprecated flags for module and chunk ids were removed
optimization.hashedModuleIds
removedoptimization.namedChunks
removed (NamedChunksPlugin
too)optimization.namedModules
removed (NamedModulesPlugin
too)optimization.occurrenceOrder
removed- MIGRATION: Use
chunkIds
andmoduleIds
optimization.splitChunks
test
no longer matches chunk name- MIGRATION: Use a test function
(module, { chunkGraph }) => chunkGraph.getModuleChunks(module).some(chunk => chunk.name === "name")
- MIGRATION: Use a test function
optimization.splitChunks
minRemainingSize
was addedoptimization.splitChunks
filename
can now be a functionoptimization.splitChunks
sizes can now be objects with a size per source typeminSize
minRemainingSize
maxSize
maxAsyncSize
maxInitialSize
optimization.splitChunks
maxAsyncSize
andmaxInitialSize
added next tomaxSize
: allows to specify different max sizes for initial and async chunksoptimization.splitChunks
name: true
removed: Automatic names are no longer supported- MIGRATION: Use the default.
chunkIds: "named"
will give your files useful names for debugging
- MIGRATION: Use the default.
optimization.splitChunks.cacheGroups[].idHint
added: Gives a hint how the named chunk id should be chosenoptimization.splitChunks
automaticNamePrefix
removed- MIGRATION: Use
idHint
instead
- MIGRATION: Use
optimization.splitChunks
filename
is no longer restricted to initial chunksoptimization.splitChunks
usedExports
added to include used exports when comparing modulesoptimization.splitChunks.defaultSizeTypes
added: Specified the size types when using numbers for sizesoptimization.mangleExports
addedoptimization.minimizer
"..."
can be used to reference the defaultsoptimization.usedExports
"global"
value added to allow to disable the analysis per runtime and instead do it globally (better performance)optimization.noEmitOnErrors
renamed tooptimization.emitOnErrors
and logic invertedoptimization.realContentHash
addedoutput.devtoolLineToLine
removed- MIGRATION: No replacement
output.chunkFilename: Function
is now allowedoutput.hotUpdateChunkFilename: Function
is now forbidden: It never worked anyway.output.hotUpdateMainFilename: Function
is now forbidden: It never worked anyway.output.importFunctionName: string
specifies the name used as replacement forimport()
to allow polyfilling for non-suppored environmentsoutput.charset
added: setting it to false omit thecharset
property on script tagsoutput.hotUpdateFunction
renamed tooutput.hotUpdateGlobal
output.jsonpFunction
renamed tooutput.chunkLoadingGlobal
output.chunkCallbackFunction
renamed tooutput.chunkLoadingGlobal
output.chunkLoading
addedoutput.enabledChunkLoadingTypes
addedoutput.chunkFormat
addedmodule.rules
resolve
andparser
will merge in a different way (objects are deeply merged, array may include"..."
to reference to prev value)module.rules
parser.worker
added: Allows to configure the worker supportedmodule.rules
query
andloaders
were removedmodule.rules
options
passing a string is deprecated- MIGRATION: Pass an options object instead, open an issue on the loader when this is not supported
module.rules
mimetype
added: allows to match a mimetype of a DataUrimodule.rules
descriptionData
added: allows to match a data from package.jsonmodule.defaultRules
"..."
can be used to reference the defaultsstats.chunkRootModules
added: Show root modules for chunksstats.orphanModules
added: Show modules which are not emittedstats.runtime
added: Show runtime modulesstats.chunkRelations
added: Show parent/children/sibling chunksstats.errorStack
added: Show webpack-internal stack trace of errorsstats.preset
added: select a presetstats.relatedAssets
added: show assets that are related to other assets (e. g. SourceMaps)stats.warningsFilter
deprecated in favor ofignoreWarnings
BannerPlugin.banner
signature changeddata.basename
removeddata.query
removed- MIGRATION: extract from
filename
SourceMapDevToolPlugin
lineToLine
removed- MIGRATION: No replacement
[hash]
as hash for the full compilation is now deprecated- MIGRATION: Use
[fullhash]
instead or better use another hash option
- MIGRATION: Use
[modulehash]
is deprecated- MIGRATION: Use
[hash]
instead
- MIGRATION: Use
[moduleid]
is deprecated- MIGRATION: Use
[id]
instead
- MIGRATION: Use
[filebase]
removed- MIGRATION: Use
[base]
instead
- MIGRATION: Use
- New placeholders for file-based templates (i. e. SourceMapDevToolPlugin)
[name]
[base]
[path]
[ext]
externals
when passing a function, it has now a different signature({ context, request }, callback)
- MIGRATION: Change signature
externalsPresets
addedexperiments
added (see Experiments section above)watchOptions.followSymlinks
addedwatchOptions.ignored
can now be a RegExpwebpack.util.serialization
is now exposed.
Changes to the Defaults
target
is now"browserslist"
by default when a browserslist config is availablemodule.unsafeCache
is now only enabled fornode_modules
by defaultoptimization.moduleIds
defaults todeterministic
in production mode, instead ofsize
optimization.chunkIds
defaults todeterministic
in production mode, instead oftotal-size
optimization.nodeEnv
defaults tofalse
innone
modeoptimization.splitChunks.minSize
defaults to20k
in productionoptimization.splitChunks.enforceSizeThreshold
defaults to50k
in productionoptimization.splitChunks
minRemainingSize
defaults tominSize
- This will lead to less splitted chunks created in cases where the remaining part would be too small
optimization.splitChunks
maxAsyncRequests
andmaxInitialRequests
defaults was been increased to 30optimization.splitChunks.cacheGroups.vendors
has be renamed tooptimization.splitChunks.cacheGroups.defaultVendors
optimization.splitChunks.cacheGroups.defaultVendors.reuseExistingChunk
now defaults totrue
resolve(Loader).cache
defaults totrue
whencache
is usedresolve(Loader).cacheWithContext
defaults tofalse
resolveLoader.extensions
remove.json
node.global
node.__filename
andnode.__dirname
defaults tofalse
in node-target
sstats.errorStack
defaults tofalse
Loader related Changes
this.getOptions
This new API should simplity the usage for options in loaders. It allows to pass an JSON schema for validation. See webpack/webpack#10017 for details
Major Internal Changes
The following changes are only relevant for plugin authors:
New plugin order
Plugins in webpack 5 are now applies before the configuration defaults has been applied. This allows plugins to apply their own defaults, or act as configuration presets.
But this is also a breaking change as plugins can't rely on configuration values to be set when they are applied.
MIGRATION: Access configuration only in plugin hooks. Or best avoid accessing configuration at all and take options via constructor.
Runtime Modules
A large part of the runtime code was moved into the so-called "runtime modules". These special modules are in-charge of adding runtime code. They can be added into any chunk, but are currently always added to the runtime chunk. "Runtime Requirements" control which runtime modules (or core runtime parts) are added to the bundle. This ensures that only runtime code that is used is added to the bundle. In the future, runtime modules could also be added to an on-demand-loaded chunk, to load runtime code when needed.
In most cases, the core runtime allows to inline the entry module instead of calling it with __webpack_require__
. If there is no other module in the bundle, no __webpack_require__
is needed at all. This combines well with Module Concatenation where multiple modules are concatenated into a single module.
In the best case, no runtime code is needed at all.
MIGRATION: If you are injecting runtime code into the webpack runtime in a plugin, consider using RuntimeModules instead.
Serialization
A serialization mechanism was added to allow serialization of complex objects in webpack. It has an opt-in semantic, so classes that should be serialized need to be explicitly flagged (and their serialization implemented). This has been done for most Modules, all Dependencies and some Errors.
MIGRATION: When using custom Modules or Dependencies, it is recommended to make them serializable to benefit from persistent caching.
Extensible Caching
A Cache
class with a plugin interface has been added. This class can be used to write and read to the cache. Depending on the configuration, different plugins can add functionality to the cache. The MemoryCachePlugin
adds in-memory caching. The FileCachePlugin
adds persistent (file-system) caching.
The FileCachePlugin
uses the serialization mechanism to persist and restore cached items to/from the disk.
Hook Object Frozen
Classes with hooks
have their hooks
object frozen, so adding custom hooks is no longer possible this way.
MIGRATION: The recommended way to add custom hooks is using a WeakMap and a static getXXXHooks(XXX)
(i. e. getCompilationHook(compilation)
) method. Internal classes use the same mechanism used for custom hooks.
Tapable Upgrade
The compat layer for webpack 3 plugins has been removed. It had already been deprecated for webpack 4.
Some less used tapable APIs were removed or deprecated.
MIGRATION: Use the new tapable API.
Staged Hooks
For several steps in the sealing process, there had been multiple hooks for different stages. i. e. optimizeDependenciesBasic
optimizeDependencies
and optimizeDependenciesAdvanced
. These have been removed in favor of a single hook which can be used with a stage
option. See OptimizationStages
for possible stage values.
MIGRATION: Hook into the remaining hook instead. You may add a stage
option.
Main/Chunk/ModuleTemplate deprecation
Bundle templating has been refactored. MainTemplate/ChunkTemplate/ModuleTemplate were deprecated and the JavascriptModulesPlugin takes care of JS templating now.
Before that refactoring, JS output was handled by Main/ChunkTemplate while another output (i. e. WASM, CSS) was handled by plugins. This looks like JS is first class, while another output is second class. The refactoring changes that and all output is handled by their plugins.
It's still possible to hook into parts of the templating. The hooks are in JavascriptModulesPlugin instead of Main/ChunkTemplate now. (Yes plugins can have hooks too. I call them attached hooks.)
There is a compat-layer, so Main/Chunk/ModuleTemplate still exist, but only delegate tap calls to the new hook locations.
MIGRATION: Follow the advice in the deprecation messages. Mostly pointing to hooks at different locations.
Entry point descriptor
If an object is passed as entry point the value might be a string, array of strings or a descriptor:
module.exports = {
entry: {
catalog: {
import: './catalog.js',
}
}
};
Descriptor syntax might be used to pass additional options to an entry point.
Entry point output filename
By default, the output filename for the entry chunk is extracted from output.filename
but you can specify a custom output filename for a specific entry:
module.exports = {
entry: {
about: { import: './about.js', filename: 'pages/[name][ext]' }
}
};
Entry point dependency
By default, every entry chunk stores all the modules that it uses. With dependOn
-option you can share the modules from one entry chunk to another:
module.exports = {
entry: {
app: { import: './app.js', dependOn: 'react-vendors' },
'react-vendors': ['react', 'react-dom', 'prop-types']
}
};
The app chunk will not contain the modules that react-vendors
has.
Entry point library
The entry descriptor allows to pass a different library
option for each entrypoint.
module.exports = {
entry: {
commonjs: {
import: './lib.js',
library: {
type: "commonjs-module"
}
},
amd: {
import: './lib.js',
library: {
type: "amd"
}
}
}
};
Entry point runtime
The entry descriptor allows to specify a runtime
per entry.
When specified a chunk with this name is created which contains only the runtime code for the entry.
When multiple entries specify the same runtime
, that chunk will contain a common runtime for all these entry.
This means they could be used together on the same HTML page.
module.exports = {
entry: {
app: {
import: './app.js',
runtime: "app-runtime"
}
}
};
Entry point chunk loading
The entry descriptor allows to specify a chunkLoading
per entry.
The runtime for this entry will use this to load chunks.
module.exports = {
entry: {
app: {
import: './app.js'
},
worker: {
import: './worker.js',
chunkLoading: "importScripts"
}
}
};
Order and IDs
webpack used to order modules and chunks in the Compilation phase, in a specific way, to assign IDs in incremental order. This is no longer the case. The order will no longer be used for id generation, instead, the full control of ID generation is in the plugin.
Hooks to optimize the order of module and chunks have been removed.
MIGRATION: You cannot rely on the order of modules and chunks in the compilation phase no more.
Arrays to Sets
- Compilation.modules is now a Set
- Compilation.chunks is now a Set
- Chunk.files is now a Set
There is a compat-layer which prints deprecation warnings.
MIGRATION: Use Set methods instead of Array methods.
Compilation.fileSystemInfo
This new class can be used to access information about the filesystem in a cached way. Currently, it allows asking for both file and directory timestamps. Information about timestamps is transferred from the watcher if possible, otherwise determined by filesystem access.
In the future, asking for file content hashes will be added and modules will be able to check validity with file contents instead of file hashes.
MIGRATION: Instead of using file/contextTimestamps
use the compilation.fileSystemInfo
API instead.
Timestamping for directories is possible now, which allows serialization of ContextModules.
Compiler.modifiedFiles
has been added (next to Compiler.removedFiles
) to make it easier to reference the changed files.
Filesystems
Next to compiler.inputFileSystem
and compiler.outputFileSystem
there is a new compiler.intermediateFileSystem
for all fs actions that are not considered as input or output, like writing records, cache or profiling output.
The filesystems have now the fs
interface and do no longer demand additional methods like join
or mkdirp
. But if they have methods like join
or dirname
they are used.
Hot Module Replacement
HMR runtime has been refactored to Runtime Modules. HotUpdateChunkTemplate
has been merged into ChunkTemplate
. ChunkTemplates and plugins should also handle HotUpdateChunk
s now.
The javascript part of HMR runtime has been separated from the core HMR runtime. Other module types can now also handle HMR in their own way. In the future, this will allow i. e. HMR for the mini-css-extract-plugin or for WASM modules.
MIGRATION: As this is a newly introduced functionality, there is nothing to migrate.
import.meta.webpackHot
exposes the same API as module.hot
. This is also usable from strict ESM modules (.mjs, type: "module" in package.json) which do not have access to module
.
Work Queues
webpack used to handle module processing by functions calling functions, and a semaphore
which limits parallelism. The Compilation.semaphore
has been removed and async queues now handle work queuing and processing. Each step has a separate queue:
Compilation.factorizeQueue
: calling the module factory for a group of dependencies.Compilation.addModuleQueue
: adding the module to the compilation queue (may restore module from cache).Compilation.buildQueue
: building the module if necessary (may stores module to cache).Compilation.rebuildQueue
: building a module again if manually triggered.Compilation.processDependenciesQueue
: processing dependencies of a module.
These queues have some hooks to watch and intercept job processing.
In the future, multiple compilers may work together and job orchestration can be done by intercepting these queues.
MIGRATION: As this is a newly introduced functionality, there is nothing to migrate.
Logging
webpack internals includes some logging now.
stats.logging
and infrastructureLogging
options can be used to enabled these messages.
Module and Chunk Graph
webpack used to store a resolved module in the dependency, and store the contained modules in the chunk. This is no longer the case. All information about how modules are connected in the module graph are now stored in a ModuleGraph class. All information about how modules are connected with chunks are now stored in the ChunkGraph class. The information which depends on i. e. the chunk graph, is also stored in the related class.
That means the following information about modules has been moved:
- Module connections -> ModuleGraph
- Module issuer -> ModuleGraph
- Module optimization bailout -> ModuleGraph (TODO: check if it should ChunkGraph instead)
- Module usedExports -> ModuleGraph
- Module providedExports -> ModuleGraph
- Module pre order index -> ModuleGraph
- Module post order index -> ModuleGraph
- Module depth -> ModuleGraph
- Module profile -> ModuleGraph
- Module id -> ChunkGraph
- Module hash -> ChunkGraph
- Module runtime requirements -> ChunkGraph
- Module is in chunk -> ChunkGraph
- Module is entry in chunk -> ChunkGraph
- Module is runtime module in chunk -> ChunkGraph
- Chunk runtime requirements -> ChunkGraph
webpack used to disconnect modules from the graph when restored from the cache. This is no longer necessary. A Module stores no info about the graph and can technically be used in multiple graphs. This makes caching easier.
There is a compat-layer for most of these changes, which prints a deprecation warning when used.
MIGRATION: Use the new APIs on ModuleGraph and ChunkGraph
Init Fragments
DependenciesBlockVariables
has been removed in favor of InitFragments. DependencyTemplates
can now add InitFragments
to inject code to the top of the module's source. InitFragments
allows deduplication.
MIGRATION: Use InitFragments
instead of inserting something at a negative index into the source.
Module Source Types
Modules now have to define which source types they support via Module.getSourceTypes()
. Depending on that, different plugins call source()
with these types. i. e. for source type javascript
the JavascriptModulesPlugin
embeds the source code into the bundle. Source type webassembly
will make the WebAssemblyModulesPlugin
emit a wasm file. Custom source types are also supported, i. e. the mini-css-extract-plugin will probably use the source type stylesheet
to embed the source code into a css file.
There is no relationship between module type and source type. i. e. module type json
also uses source type javascript
and module type webassembly/experimental
uses source types javascript
and webassembly
.
MIGRATION: Custom modules need to implement these new interface methods.
Extensible Stats
Stats preset
, default
, json
and toString
are now baked in by a plugin system. Converted the current Stats into plugins.
MIGRATION: Instead of replacing the whole Stats functionality, you can now customize it. Extra information can now be added to the stats json instead of writing a separate file.
New Watching
The watcher used by webpack was refactored. It was previously using chokidar
and the native dependency fsevents
(only on OSX). Now it's only based on native node.js fs
. This means there is no native dependency left in webpack.
It also captures more information about filesystem while watching. It now captures mtimes and watches event times, as well as information about missing files. For this, the WatchFileSystem
API changed a little bit. While on it we also converted Arrays to Sets and Objects to Maps.
SizeOnlySource after emit
webpack now replaces the Sources in Compilation.assets
with SizeOnlySource
variants to reduce memory usage.
Emitting assets multiple times
The warning Multiple assets emit different content to the same filename
has been made an error.
ExportsInfo
The way how information about exports of modules is stored has been refactored. The ModuleGraph now features an ExportsInfo
for each Module
, which stores information per export. It also stores information about unknown exports and if the module is used in a side-effect-only way.
For each export the following information is stored:
- Is the export used? yes, no, not statically known, not determined. (see also
optimization.usedExports
) - Is the export provided? yes, no, not statically known, not determined. (see also
optimization.providedExports
) - Can be export name be renamed? yes, no, not determined.
- The new name, if the export has been renamed. (see also
optimization.mangleExports
) - Nested ExportsInfo, if the export is an object with information attached itself
- Used for reexporting namespace objects:
import * as X from "..."; export { X };
- Used for representing structure in JSON modules
- Used for reexporting namespace objects:
Code Generation Phase
The Compilation features Code Generation as separate compilation phase now. It no longer runs hidden in Module.source()
or Module.getRuntimeRequirements()
.
This should make the flow much cleaner. It also allows to report progress for this phase and makes Code Generation more visible when profiling.
MIGRATION: Module.source()
and Module.getRuntimeRequirements()
are deprecated now. Use Module.codeGeneration()
instead.
Improved Code Generation
webpack detects when ASI happens and generates shorter code when no semicolons are inserted. Object(...)
-> (0, ...)
webpack merges multiple export getters into a single runtime function call: r.d(x, "a", () => a); r.d(x, "b", () => b);
-> r.d(x, {a: () => a, b: () => b});
DependencyReference
webpack used to have a single method and type to represent references of dependencies (Compilation.getDependencyReference
returning a DependencyReference
).
This type used to include all information about this reference like the referenced Module, which exports have been imported, if it's a weak reference and also some ordering related information.
Bundling all these information together makes getting the reference expensive and it's also called very often every time somebody needs one piece of information.
In webpack 5 this part of the codebase was refactored and the method has been split up.
- The referenced module can be read from the ModuleGraphConnection
- The imported export names can be get via
Dependency.getReferencedExports()
- There is a
weak
flag on theDependency
class - Ordering is only relevant to
HarmonyImportDependencies
and can be get viasourceOrder
property
Presentational Dependencies
There is now a new type of dependency in NormalModules
: Presentational Dependencies
These dependencies are only used during the Code Generation phase but are not used during Module Graph building. So they can never have referenced modules or influence exports/imports.
These dependencies are cheaper to process and webpack uses them when possible
Deprecated loaders
-
It will be deprecated. Use
alias: { xyz$: false }
or use an absolute path
alias: { [path.resolve(__dirname, "....")]: false }
Minor Changes
Compiler.name
: When generating a compiler name with absolute paths, make sure to separate them with|
or!
on both parts of the name.- Using space as a separator is now deprecated. (Paths could contain spaces)
- Hint:
|
is replaced with space in Stats string output.
SystemPlugin
is now disabled by default.- MIGRATION: Avoid using it as the spec has been removed. You can re-enable it with
Rule.parser.system: true
- MIGRATION: Avoid using it as the spec has been removed. You can re-enable it with
ModuleConcatenationPlugin
: concatenation is no longer prevented byDependencyVariables
as they have been removed- This means it can now concatenate in cases of
module
,global
,process
or the ProvidePlugin
- This means it can now concatenate in cases of
exec
removed from the loader context- MIGRATION: This can be implemented in the loader itself
Stats.presetToOptions
removed- MIGRATION: Use
compilation.createStatsOptions
instead
- MIGRATION: Use
SingleEntryPlugin
andSingleEntryDependency
removed- MIGRATION: use
EntryPlugin
andEntryDependency
- MIGRATION: use
- Chunks can now have multiple entry modules
ExtendedAPIPlugin
removed- MIGRATION: No longer needed,
__webpack_hash__
and__webpack_chunkname__
can always be used and runtime code is injected where needed.
- MIGRATION: No longer needed,
ProgressPlugin
no longer uses tapable context forreportProgress
- MIGRATION: Use
ProgressPlugin.getReporter(compiler)
instead
- MIGRATION: Use
ProvidePlugin
is now re-enabled for.mjs
filesStats
jsonerrors
andwarnings
no longer contain strings but objects with information splitted into properties.- MIGRATION: Access the information on the properties. i. e.
message
- MIGRATION: Access the information on the properties. i. e.
Compilation.hooks.normalModuleLoader
is deprecated- MIGRATION: Use
NormalModule.getCompilationHooks(compilation).loader
instead
- MIGRATION: Use
- Changed hooks in
NormalModuleFactory
from waterfall to bailing, changed and renamed hooks that return waterfall functions - Removed
compilationParams.compilationDependencies
- Plugins can add dependencies to the compilation by adding to
compilation.file/context/missingDependencies
- Compat layer will delegate
compilationDependencies.add
tofileDependencies.add
- Plugins can add dependencies to the compilation by adding to
stats.assetsByChunkName[x]
is now always an array__webpack_get_script_filename__
function added to get the filename of a script filegetResolve(options)
in the loader API will merge options in a different way, seemodule.rules
resolve
"sideEffects"
in package.json will be handled byglob-to-regex
instead ofmicromatch
- This may have changed semantics in edge-cases
checkContext
was removed fromIgnorePlugin
- New
__webpack_exports_info__
API allows export usage introspection - SourceMapDevToolPlugin applies to non-chunk assets too now
- EnvironmentPlugin shows an error now when referenced env variable is missing and has no fallback
- Remove serve property from schema
Other Minor Changes
- removed buildin directory and replaced buildins with runtime modules
- Removed deprecated features
- BannerPlugin now only support one argument that can be an object, string or function
- removed
CachePlugin
Chunk.entryModule
is deprecated, use ChunkGraph insteadChunk.hasEntryModule
is deprecatedChunk.addModule
is deprecatedChunk.removeModule
is deprecatedChunk.getNumberOfModules
is deprecatedChunk.modulesIterable
is deprecatedChunk.compareTo
is deprecatedChunk.containsModule
is deprecatedChunk.getModules
is deprecatedChunk.remove
is deprecatedChunk.moveModule
is deprecatedChunk.integrate
is deprecatedChunk.canBeIntegrated
is deprecatedChunk.isEmpty
is deprecatedChunk.modulesSize
is deprecatedChunk.size
is deprecatedChunk.integratedSize
is deprecatedChunk.getChunkModuleMaps
is deprecatedChunk.hasModuleInGraph
is deprecatedChunk.updateHash
signature changedChunk.getChildIdsByOrders
signature changed (TODO: consider moving toChunkGraph
)Chunk.getChildIdsByOrdersMap
signature changed (TODO: consider moving toChunkGraph
)Chunk.getChunkModuleMaps
removedChunk.setModules
removed- deprecated Chunk methods removed
ChunkGraph
addedChunkGroup.setParents
removedChunkGroup.containsModule
removedChunkGroup.remove
no longer disconnected the group from blockChunkGroup.compareTo
signature changedChunkGroup.getChildrenByOrders
signature changedChunkGroup
index and index renamed to pre/post order index- old getter is deprecated
ChunkTemplate.hooks.modules
signature changedChunkTemplate.hooks.render
signature changedChunkTemplate.updateHashForChunk
signature changedCompilation.hooks.optimizeChunkOrder
removedCompilation.hooks.optimizeModuleOrder
removedCompilation.hooks.advancedOptimizeModuleOrder
removedCompilation.hooks.optimizeDependenciesBasic
removedCompilation.hooks.optimizeDependenciesAdvanced
removedCompilation.hooks.optimizeModulesBasic
removedCompilation.hooks.optimizeModulesAdvanced
removedCompilation.hooks.optimizeChunksBasic
removedCompilation.hooks.optimizeChunksAdvanced
removedCompilation.hooks.optimizeChunkModulesBasic
removedCompilation.hooks.optimizeChunkModulesAdvanced
removedCompilation.hooks.optimizeExtractedChunksBasic
removedCompilation.hooks.optimizeExtractedChunks
removedCompilation.hooks.optimizeExtractedChunksAdvanced
removedCompilation.hooks.afterOptimizeExtractedChunks
removedCompilation.hooks.stillValidModule
addedCompilation.hooks.statsPreset
addedCompilation.hooks.statsNormalize
addedCompilation.hooks.statsFactory
addedCompilation.hooks.statsPrinter
addedCompilation.fileDependencies
,Compilation.contextDependencies
andCompilation.missingDependencies
are now LazySetsCompilation.entries
removed- MIGRATION: Use
Compilation.entryDependencies
instead
- MIGRATION: Use
Compilation._preparedEntrypoints
removeddependencyTemplates
is now aDependencyTemplates
class instead of a rawMap
Compilation.fileTimestamps
andcontextTimestamps
removed- MIGRATION: Use
Compilation.fileSystemInfo
instead
- MIGRATION: Use
Compilation.waitForBuildingFinished
removed- MIGRATION: Use the new queues
Compilation.addModuleDependencies
removedCompilation.prefetch
removedCompilation.hooks.beforeHash
is now called after the hashes of modules are created- MIGRATION: Use
Compiliation.hooks.beforeModuleHash
instead
- MIGRATION: Use
Compilation.applyModuleIds
removedCompilation.applyChunkIds
removedCompiler.root
added, which points to the root compiler- it can be used to cache data in WeakMaps instead of statically scoped
Compiler.hooks.afterDone
addedSource.emitted
is no longer set by the Compiler- MIGRATION: Check
Compilation.emittedAssets
instead
- MIGRATION: Check
Compiler/Compilation.compilerPath
added: It's a unique name of the compiler in the compiler tree. (Unique to the root compiler scope)Module.needRebuild
deprecated- MIGRATION: use
Module.needBuild
instead
- MIGRATION: use
Dependency.getReference
signature changedDependency.getExports
signature changedDependency.getWarnings
signature changedDependency.getErrors
signature changedDependency.updateHash
signature changedDependency.module
removed- There is now a base class for
DependencyTemplate
MultiEntryDependency
removedEntryDependency
addedEntryModuleNotFoundError
removedSingleEntryPlugin
removedEntryPlugin
addedGenerator.getTypes
addedGenerator.getSize
addedGenerator.generate
signature changedHotModuleReplacementPlugin.getParserHooks
addedParser
was moved toJavascriptParser
ParserHelpers
was moved toJavascriptParserHelpers
MainTemplate.hooks.moduleObj
removedMainTemplate.hooks.currentHash
removedMainTemplate.hooks.addModule
removedMainTemplate.hooks.requireEnsure
removedMainTemplate.hooks.globalHashPaths
removedMainTemplate.hooks.globalHash
removedMainTemplate.hooks.hotBootstrap
removedMainTemplate.hooks
some signatures changedModule.hash
deprecatedModule.renderedHash
deprecatedModule.reasons
removedModule.id
deprecatedModule.index
deprecatedModule.index2
deprecatedModule.depth
deprecatedModule.issuer
deprecatedModule.profile
removedModule.prefetched
removedModule.built
removedModule.used
removed- MIGRATION: Use
Module.getUsedExports
instead
- MIGRATION: Use
- Module.usedExports deprecated
- MIGRATION: Use
Module.getUsedExports
instead
- MIGRATION: Use
Module.optimizationBailout
deprecatedModule.exportsArgument
removedModule.optional
deprecatedModule.disconnect
removedModule.unseal
removedModule.setChunks
removedModule.addChunk
deprecatedModule.removeChunk
deprecatedModule.isInChunk
deprecatedModule.isEntryModule
deprecatedModule.getChunks
deprecatedModule.getNumberOfChunks
deprecatedModule.chunksIterable
deprecatedModule.hasEqualsChunks
removedModule.useSourceMap
moved toNormalModule
Module.addReason
removedModule.removeReason
removedModule.rewriteChunkInReasons
removedModule.isUsed
removed- MIGRATION: Use
isModuleUsed
,isExportUsed
andgetUsedName
instead
- MIGRATION: Use
Module.updateHash
signature changedModule.sortItems
removedModule.unbuild
removed- MIGRATION: Use
invalidateBuild
instead
- MIGRATION: Use
Module.getSourceTypes
addedModule.getRuntimeRequirements
addedModule.size
signature changedModuleFilenameHelpers.createFilename
signature changedModuleProfile
class added with more dataModuleReason
removedModuleTemplate.hooks
signatures changedModuleTemplate.render
signature changedCompiler.dependencies
removed- MIGRATION: Use
MultiCompiler.setDependencies
instead
- MIGRATION: Use
MultiModule
removedMultiModuleFactory
removedNormalModuleFactory.fileDependencies
,NormalModuleFactory.contextDependencies
andNormalModuleFactory.missingDependencies
are now LazySetsRuntimeTemplate
methods now takeruntimeRequirements
argumentsserve
property is removedStats.jsonToString
removedStats.filterWarnings
removedStats.getChildOptions
removedStats
helper methods removedStats.toJson
signature changed (second argument removed)ExternalModule.external
removedHarmonyInitDependency
removedDependency.getInitFragments
deprecated- MIGRATION: Use
apply
initFragements
instead
- MIGRATION: Use
- DependencyReference now takes a function to a module instead of a Module
- HarmonyImportSpecifierDependency.redirectedId removed
- MIGRATION: Use
setId
instead
- MIGRATION: Use
- acorn 5 -> 7
- Testing
- HotTestCases now runs for multiple targets
async-node
node
web
webworker
- TestCases now also runs for filesystem caching with
store: "instant"
andstore: "pack"
- TestCases now also runs for deterministic module ids
- HotTestCases now runs for multiple targets
- Tooling added to order the imports (checked in CI)
- Chunk name mapping in runtime no longer contains entries when chunk name equals chunk id
- add
resolvedModuleId
resolvedModuleIdentifier
andresolvedModule
to reasons in Stats which point to the module before optimizations like scope hoisting - show
resolvedModule
in Stats toString output - loader-runner was upgraded: https://github.com/webpack/loader-runner/releases/tag/v3.0.0
file/context/missingDependencies
inCompilation
are no longer sorted for performance reasons- Do not rely on the order
- webpack-sources was upgraded: https://github.com/webpack/webpack-sources/releases/tag/v2.0.0-beta.0
- webpack-command support was removed
- Use schema-utils@2 for schema validation
Compiler.assetEmitted
has an improved second argument with more information- BannerPlugin omits trailing whitespace
- removed
minChunkSize
option fromLimitChunkCountPlugin
- reorganize from javascript related files into sub-directory
webpack.JavascriptModulesPlugin
->webpack.javascript.JavascriptModulesPlugin
- Logger.getChildLogger added
- change the default of entryOnly of the DllPlugin to true
- remove special request shortening logic and use single relative paths for readable module names
- allow webpack:// urls in SourceMaps to provided paths relative to webpack root context
- add API to generate and process CLI arguments targeting webpack configuration
- add
__system_context__
as context from System.js when using System.js as libraryTarget - add bigint support for the DefinePlugin
- add bigint support for basic evaluations like maths
- remove ability to modify the compilation hash after the hash has been created
- remove HotModuleReplacementPlugin multiStep mode
assetInfo
fromemitAsset
will now merge when nested objects or arrays are used[query]
is now a valid placeholder when for paths based on afilename
like assets- add
Compilation.deleteAsset
to correctly delete an assets and non-shared related assets - expose
require("webpack-sources")
asrequire("webpack").sources
- terser 5