A loader is a JavaScript module that exports a function. The loader runner calls this function and passes the result of the previous loader or the resource file into it. The this
context of the function is filled-in by webpack and the loader runner with some useful methods that allow the loader (among other things) to change its invocation style to async, or get query parameters.
The first loader is passed one argument: the content of the resource file. The compiler expects a result from the last loader. The result should be a String
or a Buffer
(which is converted to a string), representing the JavaScript source code of the module. An optional SourceMap result (as a JSON object) may also be passed.
A single result can be returned in sync mode. For multiple results the this.callback()
must be called. In async mode this.async()
must be called to indicate that the loader runner should wait for an asynchronous result. It returns this.callback()
. Then the loader must return undefined
and call that callback.
/**
*
* @param {string|Buffer} content Content of the resource file
* @param {object} [map] SourceMap data consumable by https://github.com/mozilla/source-map
* @param {any} [meta] Meta data, could be anything
*/
function webpackLoader(content, map, meta) {
// code of your webpack loader
}
The following sections provide some basic examples of the different types of loaders. Note that the map
and meta
parameters are optional, see this.callback
below.
Either return
or this.callback
can be used to return the transformed content
synchronously:
sync-loader.js
module.exports = function (content, map, meta) {
return someSyncOperation(content);
};
The this.callback
method is more flexible as you pass multiple arguments instead of using content
only.
sync-loader-with-multiple-results.js
module.exports = function (content, map, meta) {
this.callback(null, someSyncOperation(content), map, meta);
return; // always return undefined when calling callback()
};
For asynchronous loaders, this.async
is used to retrieve the callback
function:
async-loader.js
module.exports = function (content, map, meta) {
var callback = this.async();
someAsyncOperation(content, function (err, result) {
if (err) return callback(err);
callback(null, result, map, meta);
});
};
async-loader-with-multiple-results.js
module.exports = function (content, map, meta) {
var callback = this.async();
someAsyncOperation(content, function (err, result, sourceMaps, meta) {
if (err) return callback(err);
callback(null, result, sourceMaps, meta);
});
};
By default, the resource file is converted to a UTF-8 string and passed to the loader. By setting the raw
flag to true
, the loader will receive the raw Buffer
. Every loader is allowed to deliver its result as a String
or as a Buffer
. The compiler converts them between loaders.
raw-loader.js
module.exports = function (content) {
assert(content instanceof Buffer);
return someSyncOperation(content);
// return value can be a `Buffer` too
// This is also allowed if loader is not "raw"
};
module.exports.raw = true;
Loaders are always called from right to left. There are some instances where the loader only cares about the metadata behind a request and can ignore the results of the previous loader. The pitch
method on loaders is called from left to right before the loaders are actually executed (from right to left).
For the following configuration of use
:
module.exports = {
//...
module: {
rules: [
{
//...
use: ['a-loader', 'b-loader', 'c-loader'],
},
],
},
};
These steps would occur:
|- a-loader `pitch`
|- b-loader `pitch`
|- c-loader `pitch`
|- requested module is picked up as a dependency
|- c-loader normal execution
|- b-loader normal execution
|- a-loader normal execution
So why might a loader take advantage of the "pitching" phase?
First, the data
passed to the pitch
method is exposed in the execution phase as well under this.data
and could be useful for capturing and sharing information from earlier in the cycle.
module.exports = function (content) {
return someSyncOperation(content, this.data.value);
};
module.exports.pitch = function (remainingRequest, precedingRequest, data) {
data.value = 42;
};
Second, if a loader delivers a result in the pitch
method, the process turns around and skips the remaining loaders. In our example above, if the b-loader
s pitch
method returned something:
module.exports = function (content) {
return someSyncOperation(content);
};
module.exports.pitch = function (remainingRequest, precedingRequest, data) {
if (someCondition()) {
return (
'module.exports = require(' +
JSON.stringify('-!' + remainingRequest) +
');'
);
}
};
The steps above would be shortened to:
|- a-loader `pitch`
|- b-loader `pitch` returns a module
|- a-loader normal execution
The loader context represents the properties that are available inside of a loader assigned to the this
property.
Given the following example, this require call is used:
In /abc/file.js
:
require('./loader1?xyz!loader2!./resource?rrr');
addContextDependency(directory: string)
Add a directory as dependency of the loader result.
addDependency(file: string)
dependency(file: string) // shortcut
Add an existing file as a dependency of the loader result in order to make them watchable. For example, sass-loader
, less-loader
uses this to recompile whenever any imported css
file changes.
addMissingDependency(file: string)
Add a non-existing file as a dependency of the loader result in order to make them watchable. Similar to addDependency
, but handles the creation of files during compilation before watchers are attached correctly.
Tells the loader-runner that the loader intends to call back asynchronously. Returns this.callback
.
A function that sets the cacheable flag:
cacheable(flag = true: boolean)
By default, loader results are flagged as cacheable. Call this method passing false
to make the loader's result not cacheable.
A cacheable loader must have a deterministic result when inputs and dependencies haven't changed. This means the loader shouldn't have dependencies other than those specified with this.addDependency
.
A function that can be called synchronously or asynchronously in order to return multiple results. The expected arguments are:
this.callback(
err: Error | null,
content: string | Buffer,
sourceMap?: SourceMap,
meta?: any
);
Error
or null
string
or a Buffer
.In case this function is called, you should return undefined to avoid ambiguous loader results.
clearDependencies();
Remove all dependencies of the loader result, even initial dependencies and those of other loaders. Consider using pitch
.
The directory of the module. Can be used as a context for resolving other stuff.
In the example: /abc
because resource.js
is in this directory
A data object shared between the pitch and the normal phase.
emitError(error: Error)
Emit an error that also can be displayed in the output.
ERROR in ./src/lib.js (./src/loader.js!./src/lib.js)
Module Error (from ./src/loader.js):
Here is an Error!
@ ./src/index.js 1:0-25
emitFile(name: string, content: Buffer|string, sourceMap: {...})
Emit a file. This is webpack-specific.
emitWarning(warning: Error)
Emit a warning that will be displayed in the output like the following:
WARNING in ./src/lib.js (./src/loader.js!./src/lib.js)
Module Warning (from ./src/loader.js):
Here is a Warning!
@ ./src/index.js 1:0-25
Check what kind of ES-features may be used in the generated runtime-code.
E.g.,
{
// The environment supports arrow functions ('() => { ... }').
"arrowFunction": true,
// The environment supports BigInt as literal (123n).
"bigIntLiteral": false,
// The environment supports const and let for variable declarations.
"const": true,
// The environment supports destructuring ('{ a, b } = obj').
"destructuring": true,
// The environment supports an async import() function to import EcmaScript modules.
"dynamicImport": false,
// The environment supports an async import() when creating a worker, only for web targets at the moment.
"dynamicImportInWorker": false,
// The environment supports 'for of' iteration ('for (const x of array) { ... }').
"forOf": true,
// The environment supports 'globalThis'.
"globalThis": true,
// The environment supports ECMAScript Module syntax to import ECMAScript modules (import ... from '...').
"module": false,
// The environment supports optional chaining ('obj?.a' or 'obj?.()').
"optionalChaining": true,
// The environment supports template literals.
"templateLiteral": true
}
Access to the compilation
's inputFileSystem
property.
Extracts given loader options. Optionally, accepts JSON schema as an argument.
getResolve(options: ResolveOptions): resolve
resolve(context: string, request: string, callback: function(err, result: string))
resolve(context: string, request: string): Promise<string>
Creates a resolve function similar to this.resolve
.
Any options under webpack resolve
options are possible. They are merged with the configured resolve
options. Note that "..."
can be used in arrays to extend the value from resolve
options, e.g. { extensions: [".sass", "..."] }
.
options.dependencyType
is an additional option. It allows us to specify the type of dependency, which is used to resolve byDependency
from the resolve
options.
All dependencies of the resolving operation are automatically added as dependencies to the current module.
Information about HMR for loaders.
module.exports = function (source) {
console.log(this.hot); // true if HMR is enabled via --hot flag or webpack configuration
return source;
};
this.importModule(request, options, [callback]): Promise
An alternative lightweight solution for the child compiler to compile and execute a request at build time.
request
: the request string to load the module fromoptions
:
layer
: specify a layer in which this module is placed/compiledpublicPath
: the public path used for the built modulescallback
: an optional Node.js style callback returning the exports of the module or a namespace object for ESM. importModule
will return a Promise if no callback is provided.webpack.config.js
module.exports = {
module: {
rules: [
{
test: /stylesheet\.js$/i,
use: ['./a-pitching-loader.js'],
type: 'asset/source', // we set type to 'asset/source' as the loader will return a string
},
],
},
};
a-pitching-loader.js
exports.pitch = async function (remaining) {
const result = await this.importModule(
this.resourcePath + '.webpack[javascript/auto]' + '!=!' + remaining
);
return result.default || result;
};
src/stylesheet.js
import { green, red } from './colors.js';
export default `body { background: ${red}; color: ${green}; }`;
src/colors.js
export const red = '#f00';
export const green = '#0f0';
src/index.js
import stylesheet from './stylesheet.js';
// stylesheet will be a string `body { background: #f00; color: #0f0; }` at build time
You might notice something in the above example:
!=!
syntax in that pitching loader to set matchResource for the request, i.e., we'll use this.resourcePath + '.webpack[javascript/auto]'
to match with the module.rules
instead of the original resource,.webpack[javascript/auto]
is a pseudo extension of the .webpack[type]
pattern, we use it to specify a default module type when no other module type is specified. It's typically used in conjunction with !=!
syntax.Note that the above example is a simplified one, you can check the full example on webpack repository.
The index in the loaders array of the current loader.
In the example: in loader1: 0
, in loader2: 1
loadModule(request: string, callback: function(err, source, sourceMap, module))
Resolves the given request to a module, applies all configured loaders and calls back with the generated source, the sourceMap and the module instance (usually an instance of NormalModule
). Use this function if you need to know the source code of another module to generate the result.
this.loadModule
in a loader context uses CommonJS resolve rules by default. Use this.getResolve
with an appropriate dependencyType
, e.g. 'esm'
, 'commonjs'
or a custom one before using a different semantic.
An array of all the loaders. It is writable in the pitch phase.
loaders = [{request: string, path: string, query: string, module: function}]
In the example:
[
{
request: '/abc/loader1.js?xyz',
path: '/abc/loader1.js',
query: '?xyz',
module: [Function],
},
{
request: '/abc/node_modules/loader2/index.js',
path: '/abc/node_modules/loader2/index.js',
query: '',
module: [Function],
},
];
Read in which mode
webpack is running.
Possible values: 'production'
, 'development'
, 'none'
options
object, this will point to that object.options
, but was invoked with a query string, this will be a string starting with ?
.The resolved request string.
In the example: '/abc/loader1.js?xyz!/abc/node_modules/loader2/index.js!/abc/resource.js?rrr'
resolve(context: string, request: string, callback: function(err, result: string))
Resolve a request like a require expression.
context
must be an absolute path to a directory. This directory is used as the starting location for the resolving.request
is the request to be resolved. Usually either relative requests like ./relative
or module requests like module/path
are used, but absolute paths like /some/path
are also possible as requests.callback
is a normal Node.js-style callback function giving the resolved path.All dependencies of the resolving operation are automatically added as dependencies to the current module.
The resource part of the request, including query.
In the example: '/abc/resource.js?rrr'
The resource file.
In the example: '/abc/resource.js'
The query of the resource.
In the example: '?rrr'
Since webpack 4, the formerly this.options.context
is provided as this.rootContext
.
Tells if source map should be generated. Since generating source maps can be an expensive task, you should check if source maps are actually requested.
Target of compilation. Passed from configuration options.
Example values: 'web'
, 'node'
Access to contextify
and absolutify
utilities.
contextify
: Return a new request string avoiding absolute paths when possible.absolutify
: Return a new request string using absolute paths when possible.my-sync-loader.js
module.exports = function (content) {
this.utils.contextify(
this.context,
this.utils.absolutify(this.context, './index.js')
);
this.utils.absolutify(this.context, this.resourcePath);
// …
return content;
};
Loader API version. Currently 2
. This is useful for providing backwards compatibility. Using the version you can specify custom logic or fallbacks for breaking changes.
This boolean is set to true when this is compiled by webpack.
The loader interface provides all module relate information. However in rare cases you might need access to the compiler api itself.
Therefore you should only use them as a last resort. Using them will reduce the portability of your loader.
Access to the current Compilation object of webpack.
Access to the current Compiler object of webpack.
A boolean flag. It is set when in debug mode.
Passed from the last loader. If you would execute the input argument as a module, consider reading this variable for a shortcut (for performance).
Tells if result should be minimized.
Pass values to the next loader. If you know what your result exports if executed as a module, set this value here (as an only element array).
Hacky access to the Module object being loaded.
You can report errors from inside a loader by:
throw
(or other uncaught exception). Throwing an error while a loader is running will cause current module compilation failure.callback
(in async mode). Pass an error to the callback will also cause module compilation failure.For example:
./src/index.js
require('./loader!./lib');
Throwing an error from loader:
./src/loader.js
module.exports = function (source) {
throw new Error('This is a Fatal Error!');
};
Or pass an error to the callback in async mode:
./src/loader.js
module.exports = function (source) {
const callback = this.async();
//...
callback(new Error('This is a Fatal Error!'), source);
};
The module will get bundled like this:
/***/ "./src/loader.js!./src/lib.js":
/*!************************************!*\
!*** ./src/loader.js!./src/lib.js ***!
\************************************/
/*! no static exports found */
/***/ (function(module, exports) {
throw new Error("Module build failed (from ./src/loader.js):\nError: This is a Fatal Error!\n at Object.module.exports (/workspace/src/loader.js:3:9)");
/***/ })
Then the build output will also display the error (Similar to this.emitError
):
ERROR in ./src/lib.js (./src/loader.js!./src/lib.js)
Module build failed (from ./src/loader.js):
Error: This is a Fatal Error!
at Object.module.exports (/workspace/src/loader.js:2:9)
@ ./src/index.js 1:0-25
As you can see below, not only error message, but also details about which loader and module are involved:
ERROR in ./src/lib.js
(./src/loader.js!./src/lib.js)
(from ./src/loader.js)
@ ./src/index.js 1:0-25
A new inline request syntax was introduced in webpack v4. Prefixing <match-resource>!=!
to a request will set the matchResource
for this request.
When a matchResource
is set, it will be used to match with the module.rules
instead of the original resource. This can be useful if further loaders should be applied to the resource, or if the module type needs to be changed. It's also displayed in the stats and used for matching Rule.issuer
and test
in splitChunks
.
Example:
file.js
/* STYLE: body { background: red; } */
console.log('yep');
A loader could transform the file into the following file and use the matchResource
to apply the user-specified CSS processing rules:
file.js (transformed by loader)
import './file.js.css!=!extract-style-loader/getStyles!./file.js';
console.log('yep');
This will add a dependency to extract-style-loader/getStyles!./file.js
and treat the result as file.js.css
. Because module.rules
has a rule matching /\.css$/
and it will apply to this dependency.
The loader could look like this:
extract-style-loader/index.js
const getStylesLoader = require.resolve('./getStyles');
module.exports = function (source) {
if (STYLES_REGEXP.test(source)) {
source = source.replace(STYLES_REGEXP, '');
return `import ${JSON.stringify(
this.utils.contextify(
this.context || this.rootContext,
`${this.resource}.css!=!${getStylesLoader}!${this.remainingRequest}`
)
)};${source}`;
}
return source;
};
extract-style-loader/getStyles.js
module.exports = function (source) {
const match = source.match(STYLES_REGEXP);
return match[0];
};
Logging API is available since the release of webpack 4.37. When logging
is enabled in stats configuration
and/or when infrastructure logging
is enabled, loaders may log messages which will be printed out in the respective logger format (stats, infrastructure).
this.getLogger()
for logging which is a shortcut to compilation.getLogger()
with loader path and processed file. This kind of logging is stored to the Stats and formatted accordingly. It can be filtered and exported by the webpack user.this.getLogger('name')
to get an independent logger with a child name. Loader path and processed file is still added.this.getLogger ? this.getLogger() : console
to provide a fallback when an older webpack version is used which does not support getLogger
method.