Stability: 2 - Stable
ECMAScript modules are the official standard format to package JavaScript
code for reuse. Modules are defined using a variety of import
and
export
statements.
The following example of an ES module exports a function:
// addTwo.mjs
function addTwo(num) {
return num + 2;
}
export { addTwo };
The following example of an ES module imports the function from addTwo.mjs
:
// app.mjs
import { addTwo } from './addTwo.mjs';
// Prints: 6
console.log(addTwo(4));
Node.js fully supports ECMAScript modules as they are currently specified and provides interoperability between them and its original module format, CommonJS.
Node.js treats JavaScript code as CommonJS modules by default.
Authors can tell Node.js to treat JavaScript code as ECMAScript modules
via the .mjs
file extension, the package.json
"type"
field, or the
--input-type
flag. See
Modules: Packages for more
details.
This section was moved to Modules: Packages.
The specifier of an import
statement is the string after the from
keyword,
e.g. 'path'
in import { sep } from 'path'
. Specifiers are also used in
export from
statements, and as the argument to an import()
expression.
There are three types of specifiers:
-
Relative specifiers like
'./startup.js'
or'../config.mjs'
. They refer to a path relative to the location of the importing file. The file extension is always necessary for these. -
Bare specifiers like
'some-package'
or'some-package/shuffle'
. They can refer to the main entry point of a package by the package name, or a specific feature module within a package prefixed by the package name as per the examples respectively. Including the file extension is only necessary for packages without an"exports"
field. -
Absolute specifiers like
'file:///opt/nodejs/config.js'
. They refer directly and explicitly to a full path.
Bare specifier resolutions are handled by the Node.js module resolution algorithm. All other specifier resolutions are always only resolved with the standard relative URL resolution semantics.
Like in CommonJS, module files within packages can be accessed by appending a
path to the package name unless the package’s package.json
contains an
"exports"
field, in which case files within packages can only be accessed
via the paths defined in "exports"
.
For details on these package resolution rules that apply to bare specifiers in the Node.js module resolution, see the packages documentation.
A file extension must be provided when using the import
keyword to resolve
relative or absolute specifiers. Directory indexes (e.g. './startup/index.js'
)
must also be fully specified.
This behavior matches how import
behaves in browser environments, assuming a
typically configured server.
ES modules are resolved and cached as URLs. This means that files containing
special characters such as #
and ?
need to be escaped.
file:
, node:
, and data:
URL schemes are supported. A specifier like
'https://example.com/app.js'
is not supported natively in Node.js unless using
a custom HTTPS loader.
Modules are loaded multiple times if the import
specifier used to resolve
them has a different query or fragment.
import './foo.mjs?query=1'; // loads ./foo.mjs with query of "?query=1"
import './foo.mjs?query=2'; // loads ./foo.mjs with query of "?query=2"
The volume root may be referenced via /
, //
or file:///
. Given the
differences between URL and path resolution (such as percent encoding
details), it is recommended to use url.pathToFileURL when importing a path.
data:
URLs are supported for importing with the following MIME types:
text/javascript
for ES Modulesapplication/json
for JSONapplication/wasm
for Wasm
data:
URLs only resolve Bare specifiers for builtin modules
and Absolute specifiers. Resolving
Relative specifiers does not work because data:
is not a
special scheme. For example, attempting to load ./foo
from data:text/javascript,import "./foo";
fails to resolve because there
is no concept of relative resolution for data:
URLs. An example of a data:
URLs being used is:
import 'data:text/javascript,console.log("hello!");';
import _ from 'data:application/json,"world!"';
node:
URLs are supported as an alternative means to load Node.js builtin
modules. This URL scheme allows for builtin modules to be referenced by valid
absolute URL strings.
import fs from 'node:fs/promises';
Core modules provide named exports of their public API. A
default export is also provided which is the value of the CommonJS exports.
The default export can be used for, among other things, modifying the named
exports. Named exports of builtin modules are updated only by calling
module.syncBuiltinESMExports()
.
import EventEmitter from 'events';
const e = new EventEmitter();
import { readFile } from 'fs';
readFile('./foo.txt', (err, source) => {
if (err) {
console.error(err);
} else {
console.log(source);
}
});
import fs, { readFileSync } from 'fs';
import { syncBuiltinESMExports } from 'module';
import { Buffer } from 'buffer';
fs.readFileSync = () => Buffer.from('Hello, ESM');
syncBuiltinESMExports();
fs.readFileSync === readFileSync;
Dynamic import()
is supported in both CommonJS and ES modules. In CommonJS
modules it can be used to load ES modules.
- {Object}
The import.meta
meta property is an Object
that contains the following
properties.
- {string} The absolute
file:
URL of the module.
This is defined exactly the same as it is in browsers providing the URL of the current module file.
This enables useful patterns such as relative file loading:
import { readFileSync } from 'fs';
const buffer = readFileSync(new URL('./data.proto', import.meta.url));
Stability: 1 - Experimental
This feature is only available with the --experimental-import-meta-resolve
command flag enabled.
specifier
{string} The module specifier to resolve relative toparent
.parent
{string|URL} The absolute parent module URL to resolve from. If none is specified, the value ofimport.meta.url
is used as the default.- Returns: {Promise}
Provides a module-relative resolution function scoped to each module, returning the URL string.
const dependencyAsset = await import.meta.resolve('component-lib/asset.css');
import.meta.resolve
also accepts a second argument which is the parent module
from which to resolve from:
await import.meta.resolve('./dep', import.meta.url);
This function is asynchronous because the ES module resolver in Node.js is allowed to be asynchronous.
An import
statement can reference an ES module or a CommonJS module.
import
statements are permitted only in ES modules, but dynamic import()
expressions are supported in CommonJS for loading ES modules.
When importing CommonJS modules, the
module.exports
object is provided as the default export. Named exports may be
available, provided by static analysis as a convenience for better ecosystem
compatibility.
The CommonJS module require
always treats the files it references as CommonJS.
Using require
to load an ES module is not supported because ES modules have
asynchronous execution. Instead, use import()
to load an ES module
from a CommonJS module.
CommonJS modules consist of a module.exports
object which can be of any type.
When importing a CommonJS module, it can be reliably imported using the ES module default import or its corresponding sugar syntax:
import { default as cjs } from 'cjs';
// The following import statement is "syntax sugar" (equivalent but sweeter)
// for `{ default as cjsSugar }` in the above import statement:
import cjsSugar from 'cjs';
console.log(cjs);
console.log(cjs === cjsSugar);
// Prints:
// <module.exports>
// true
The ECMAScript Module Namespace representation of a CommonJS module is always
a namespace with a default
export key pointing to the CommonJS
module.exports
value.
This Module Namespace Exotic Object can be directly observed either when using
import * as m from 'cjs'
or a dynamic import:
import * as m from 'cjs';
console.log(m);
console.log(m === await import('cjs'));
// Prints:
// [Module] { default: <module.exports> }
// true
For better compatibility with existing usage in the JS ecosystem, Node.js in addition attempts to determine the CommonJS named exports of every imported CommonJS module to provide them as separate ES module exports using a static analysis process.
For example, consider a CommonJS module written:
// cjs.cjs
exports.name = 'exported';
The preceding module supports named imports in ES modules:
import { name } from './cjs.cjs';
console.log(name);
// Prints: 'exported'
import cjs from './cjs.cjs';
console.log(cjs);
// Prints: { name: 'exported' }
import * as m from './cjs.cjs';
console.log(m);
// Prints: [Module] { default: { name: 'exported' }, name: 'exported' }
As can be seen from the last example of the Module Namespace Exotic Object being
logged, the name
export is copied off of the module.exports
object and set
directly on the ES module namespace when the module is imported.
Live binding updates or new exports added to module.exports
are not detected
for these named exports.
The detection of named exports is based on common syntax patterns but does not always correctly detect named exports. In these cases, using the default import form described above can be a better option.
Named exports detection covers many common export patterns, reexport patterns and build tool and transpiler outputs. See cjs-module-lexer for the exact semantics implemented.
In most cases, the ES module import
can be used to load CommonJS modules.
If needed, a require
function can be constructed within an ES module using
module.createRequire()
.
These CommonJS variables are not available in ES modules.
__filename
and __dirname
use cases can be replicated via
import.meta.url
.
JSON imports are still experimental and only supported via the
--experimental-json-modules
flag.
Local JSON files can be loaded relative to import.meta.url
with fs
directly:
import { readFile } from 'fs/promises';
const json = JSON.parse(await readFile(new URL('./dat.json', import.meta.url)));
Alternatively module.createRequire()
can be used.
Native modules are not currently supported with ES module imports.
They can instead be loaded with module.createRequire()
or
process.dlopen
.
Relative resolution can be handled via new URL('./local', import.meta.url)
.
For a complete require.resolve
replacement, there is a flagged experimental
import.meta.resolve
API.
Alternatively module.createRequire()
can be used.
NODE_PATH
is not part of resolving import
specifiers. Please use symlinks
if this behavior is desired.
require.extensions
is not used by import
. The expectation is that loader
hooks can provide this workflow in the future.
require.cache
is not used by import
as the ES module loader has its own
separate cache.
Stability: 1 - Experimental
Currently importing JSON modules are only supported in the commonjs
mode
and are loaded using the CJS loader. WHATWG JSON modules specification are
still being standardized, and are experimentally supported by including the
additional flag --experimental-json-modules
when running Node.js.
When the --experimental-json-modules
flag is included, both the
commonjs
and module
mode use the new experimental JSON
loader. The imported JSON only exposes a default
. There is no
support for named exports. A cache entry is created in the CommonJS
cache to avoid duplication. The same object is returned in
CommonJS if the JSON module has already been imported from the
same path.
Assuming an index.mjs
with
import packageConfig from './package.json';
The --experimental-json-modules
flag is needed for the module
to work.
node index.mjs # fails
node --experimental-json-modules index.mjs # works
Stability: 1 - Experimental
Importing Web Assembly modules is supported under the
--experimental-wasm-modules
flag, allowing any .wasm
files to be
imported as normal modules while also supporting their module imports.
This integration is in line with the ES Module Integration Proposal for Web Assembly.
For example, an index.mjs
containing:
import * as M from './module.wasm';
console.log(M);
executed under:
node --experimental-wasm-modules index.mjs
would provide the exports interface for the instantiation of module.wasm
.
Stability: 1 - Experimental
The await
keyword may be used in the top level (outside of async functions)
within modules as per the ECMAScript Top-Level await
proposal.
Assuming an a.mjs
with
export const five = await Promise.resolve(5);
And a b.mjs
with
import { five } from './a.mjs';
console.log(five); // Logs `5`
node b.mjs # works
Stability: 1 - Experimental
Note: This API is currently being redesigned and will still change.
To customize the default module resolution, loader hooks can optionally be
provided via a --experimental-loader ./loader-name.mjs
argument to Node.js.
When hooks are used they only apply to ES module loading and not to any CommonJS modules loaded.
Note: The loaders API is being redesigned. This hook may disappear or its signature may change. Do not rely on the API described below.
specifier
{string}context
{Object}conditions
{string[]}parentURL
{string|undefined}
defaultResolve
{Function} The Node.js default resolver.- Returns: {Object}
format
{string|null|undefined}'builtin' | 'commonjs' | 'json' | 'module' | 'wasm'
url
{string} The absolute url to the import target (such asfile://…
)
The resolve
hook returns the resolved file URL for a given module specifier
and parent URL, and optionally its format (such as 'module'
) as a hint to the
load
hook. If a format is specified, the load
hook is ultimately responsible
for providing the final format
value (and it is free to ignore the hint
provided by resolve
); if resolve
provides a format
, a custom load
hook is required even if only to pass the value to the Node.js default load
hook.
The module specifier is the string in an import
statement or
import()
expression, and the parent URL is the URL of the module that imported
this one, or undefined
if this is the main entry point for the application.
The conditions
property in context
is an array of conditions for
package exports conditions that apply to this resolution
request. They can be used for looking up conditional mappings elsewhere or to
modify the list when calling the default resolution logic.
The current package exports conditions are always in
the context.conditions
array passed into the hook. To guarantee default
Node.js module specifier resolution behavior when calling defaultResolve
, the
context.conditions
array passed to it must include all elements of the
context.conditions
array originally passed into the resolve
hook.
/**
* @param {string} specifier
* @param {{
* conditions: !Array<string>,
* parentURL: !(string | undefined),
* }} context
* @param {Function} defaultResolve
* @returns {Promise<{ url: string }>}
*/
export async function resolve(specifier, context, defaultResolve) {
const { parentURL = null } = context;
if (Math.random() > 0.5) { // Some condition.
// For some or all specifiers, do some custom logic for resolving.
// Always return an object of the form {url: <string>}.
return {
url: parentURL ?
new URL(specifier, parentURL).href :
new URL(specifier).href,
};
}
if (Math.random() < 0.5) { // Another condition.
// When calling `defaultResolve`, the arguments can be modified. In this
// case it's adding another value for matching conditional exports.
return defaultResolve(specifier, {
...context,
conditions: [...context.conditions, 'another-condition'],
});
}
// Defer to Node.js for all other specifiers.
return defaultResolve(specifier, context, defaultResolve);
}
Note: The loaders API is being redesigned. This hook may disappear or its signature may change. Do not rely on the API described below.
Note: In a previous version of this API, this was split across 3 separate, now deprecated, hooks (
getFormat
,getSource
, andtransformSource
).
url
{string}context
{Object}format
{string|null|undefined} The format optionally supplied by theresolve
hook.
defaultLoad
{Function}- Returns: {Object}
format
{string}source
{string|ArrayBuffer|TypedArray}
The load
hook provides a way to define a custom method of determining how
a URL should be interpreted, retrieved, and parsed.
The final value of format
must be one of the following:
format |
Description | Acceptable types for source returned by load |
---|---|---|
'builtin' |
Load a Node.js builtin module | Not applicable |
'commonjs' |
Load a Node.js CommonJS module | Not applicable |
'json' |
Load a JSON file | { string , ArrayBuffer , TypedArray } |
'module' |
Load an ES module | { string , ArrayBuffer , TypedArray } |
'wasm' |
Load a WebAssembly module | { ArrayBuffer , TypedArray } |
The value of source
is ignored for type 'builtin'
because currently it is
not possible to replace the value of a Node.js builtin (core) module. The value
of source
is ignored for type 'commonjs'
because the CommonJS module loader
does not provide a mechanism for the ES module loader to override the
CommonJS module return value. This limitation might be
overcome in the future.
Caveat: The ESM
load
hook and namespaced exports from CommonJS modules are incompatible. Attempting to use them together will result in an empty object from the import. This may be addressed in the future.
Note: These types all correspond to classes defined in ECMAScript.
- The specific
ArrayBuffer
object is aSharedArrayBuffer
. - The specific
TypedArray
object is aUint8Array
.
If the source value of a text-based format (i.e., 'json'
, 'module'
)
is not a string, it is converted to a string using util.TextDecoder
.
The load
hook provides a way to define a custom method for retrieving the
source code of an ES module specifier. This would allow a loader to potentially
avoid reading files from disk. It could also be used to map an unrecognized
format to a supported one, for example yaml
to module
.
/**
* @param {string} url
* @param {{
format: string,
}} context If resolve settled with a `format`, that value is included here.
* @param {Function} defaultLoad
* @returns {Promise<{
format: !string,
source: !(string | ArrayBuffer | SharedArrayBuffer | Uint8Array),
}>}
*/
export async function load(url, context, defaultLoad) {
const { format } = context;
if (Math.random() > 0.5) { // Some condition.
/*
For some or all URLs, do some custom logic for retrieving the source.
Always return an object of the form {
format: <string>,
source: <string|buffer>,
}.
*/
return {
format,
source: '...',
};
}
// Defer to Node.js for all other URLs.
return defaultLoad(url, context, defaultLoad);
}
In a more advanced scenario, this can also be used to transform an unsupported source to a supported one (see Examples below).
Note: The loaders API is being redesigned. This hook may disappear or its signature may change. Do not rely on the API described below.
Note: In a previous version of this API, this hook was named
getGlobalPreloadCode
.
- Returns: {string}
Sometimes it might be necessary to run some code inside of the same global scope that the application runs in. This hook allows the return of a string that is run as a sloppy-mode script on startup.
Similar to how CommonJS wrappers work, the code runs in an implicit function
scope. The only argument is a require
-like function that can be used to load
builtins like "fs": getBuiltin(request: string)
.
If the code needs more advanced require
features, it has to construct
its own require
using module.createRequire()
.
/**
* @returns {string} Code to run before application startup
*/
export function globalPreload() {
return `\
globalThis.someInjectedProperty = 42;
console.log('I just set some globals!');
const { createRequire } = getBuiltin('module');
const { cwd } = getBuiltin('process');
const require = createRequire(cwd() + '/<preload>');
// [...]
`;
}
The various loader hooks can be used together to accomplish wide-ranging customizations of Node.js’ code loading and evaluation behaviors.
In current Node.js, specifiers starting with https://
are unsupported. The
loader below registers hooks to enable rudimentary support for such specifiers.
While this may seem like a significant improvement to Node.js core
functionality, there are substantial downsides to actually using this loader:
performance is much slower than loading files from disk, there is no caching,
and there is no security.
// https-loader.mjs
import { get } from 'https';
export function resolve(specifier, context, defaultResolve) {
const { parentURL = null } = context;
// Normally Node.js would error on specifiers starting with 'https://', so
// this hook intercepts them and converts them into absolute URLs to be
// passed along to the later hooks below.
if (specifier.startsWith('https://')) {
return {
url: specifier
};
} else if (parentURL && parentURL.startsWith('https://')) {
return {
url: new URL(specifier, parentURL).href
};
}
// Let Node.js handle all other specifiers.
return defaultResolve(specifier, context, defaultResolve);
}
export function load(url, context, defaultLoad) {
// For JavaScript to be loaded over the network, we need to fetch and
// return it.
if (url.startsWith('https://')) {
return new Promise((resolve, reject) => {
get(url, (res) => {
let data = '';
res.on('data', (chunk) => data += chunk);
res.on('end', () => resolve({
// This example assumes all network-provided JavaScript is ES module
// code.
format: 'module',
source: data,
}));
}).on('error', (err) => reject(err));
});
}
// Let Node.js handle all other URLs.
return defaultLoad(url, context, defaultLoad);
}
// main.mjs
import { VERSION } from 'https://coffeescript.org/browser-compiler-modern/coffeescript.js';
console.log(VERSION);
With the preceding loader, running
node --experimental-loader ./https-loader.mjs ./main.mjs
prints the current version of CoffeeScript per the module at the URL in
main.mjs
.
Sources that are in formats Node.js doesn’t understand can be converted into
JavaScript using the load
hook. Before that hook gets called,
however, a resolve
hook hook needs to tell Node.js not to
throw an error on unknown file types.
This is less performant than transpiling source files before running Node.js; a transpiler loader should only be used for development and testing purposes.
// coffeescript-loader.mjs
import { readFile } from 'fs/promises';
import { readFileSync } from 'fs';
import { createRequire } from 'module';
import { dirname, extname, resolve as resolvePath } from 'path';
import { cwd } from 'process';
import { fileURLToPath, pathToFileURL } from 'url';
import CoffeeScript from 'coffeescript';
const baseURL = pathToFileURL(`${cwd}/`).href;
// CoffeeScript files end in .coffee, .litcoffee or .coffee.md.
const extensionsRegex = /\.coffee$|\.litcoffee$|\.coffee\.md$/;
export async function resolve(specifier, context, defaultResolve) {
const { parentURL = baseURL } = context;
// Node.js normally errors on unknown file extensions, so return a URL for
// specifiers ending in the CoffeeScript file extensions.
if (extensionsRegex.test(specifier)) {
return {
url: new URL(specifier, parentURL).href
};
}
// Let Node.js handle all other specifiers.
return defaultResolve(specifier, context, defaultResolve);
}
export async function load(url, context, defaultLoad) {
// Now that we patched resolve to let CoffeeScript URLs through, we need to
// tell Node.js what format such URLs should be interpreted as. Because
// CoffeeScript transpiles into JavaScript, it should be one of the two
// JavaScript formats: 'commonjs' or 'module'.
if (extensionsRegex.test(url)) {
// CoffeeScript files can be either CommonJS or ES modules, so we want any
// CoffeeScript file to be treated by Node.js the same as a .js file at the
// same location. To determine how Node.js would interpret an arbitrary .js
// file, search up the file system for the nearest parent package.json file
// and read its "type" field.
const format = await getPackageType(url);
// When a hook returns a format of 'commonjs', `source` is be ignored.
// To handle CommonJS files, a handler needs to be registered with
// `require.extensions` in order to process the files with the CommonJS
// loader. Avoiding the need for a separate CommonJS handler is a future
// enhancement planned for ES module loaders.
if (format === 'commonjs') {
return { format };
}
const { source: rawSource } = await defaultLoad(url, { format });
// This hook converts CoffeeScript source code into JavaScript source code
// for all imported CoffeeScript files.
const transformedSource = CoffeeScript.compile(rawSource.toString(), {
bare: true,
filename: url,
});
return {
format,
source: transformedSource,
};
}
// Let Node.js handle all other URLs.
return defaultLoad(url, context, defaultLoad);
}
async function getPackageType(url) {
// `url` is only a file path during the first iteration when passed the
// resolved url from the load() hook
// an actual file path from load() will contain a file extension as it's
// required by the spec
// this simple truthy check for whether `url` contains a file extension will
// work for most projects but does not cover some edge-cases (such as
// extension-less files or a url ending in a trailing space)
const isFilePath = !!extname(url);
// If it is a file path, get the directory it's in
const dir = isFilePath ?
dirname(fileURLToPath(url)) :
url;
// Compose a file path to a package.json in the same directory,
// which may or may not exist
const packagePath = resolvePath(dir, 'package.json');
// Try to read the possibly nonexistent package.json
const type = await readFile(packagePath, { encoding: 'utf8' })
.then((filestring) => JSON.parse(filestring).type)
.catch((err) => {
if (err?.code !== 'ENOENT') console.error(err);
});
// Ff package.json existed and contained a `type` field with a value, voila
if (type) return type;
// Otherwise, (if not at the root) continue checking the next directory up
// If at the root, stop and return false
return dir.length > 1 && getPackageType(resolvePath(dir, '..'));
}
# main.coffee
import { scream } from './scream.coffee'
console.log scream 'hello, world'
import { version } from 'process'
console.log "Brought to you by Node.js version #{version}"
# scream.coffee
export scream = (str) -> str.toUpperCase()
With the preceding loader, running
node --experimental-loader ./coffeescript-loader.mjs main.coffee
causes main.coffee
to be turned into JavaScript after its source code is
loaded from disk but before Node.js executes it; and so on for any .coffee
,
.litcoffee
or .coffee.md
files referenced via import
statements of any
loaded file.
The resolver has the following properties:
- FileURL-based resolution as is used by ES modules
- Support for builtin module loading
- Relative and absolute URL resolution
- No default extensions
- No folder mains
- Bare specifier package resolution lookup through node_modules
The algorithm to load an ES module specifier is given through the ESM_RESOLVE method below. It returns the resolved URL for a module specifier relative to a parentURL.
The algorithm to determine the module format of a resolved URL is provided by ESM_FORMAT, which returns the unique module format for any file. The "module" format is returned for an ECMAScript Module, while the "commonjs" format is used to indicate loading through the legacy CommonJS loader. Additional formats such as "addon" can be extended in future updates.
In the following algorithms, all subroutine errors are propagated as errors of these top-level routines unless stated otherwise.
defaultConditions is the conditional environment name array,
["node", "import"]
.
The resolver can throw the following errors:
- Invalid Module Specifier: Module specifier is an invalid URL, package name or package subpath specifier.
- Invalid Package Configuration: package.json configuration is invalid or contains an invalid configuration.
- Invalid Package Target: Package exports or imports define a target module for the package that is an invalid type or string target.
- Package Path Not Exported: Package exports do not define or permit a target subpath in the package for the given module.
- Package Import Not Defined: Package imports do not define the specifier.
- Module Not Found: The package or module requested does not exist.
- Unsupported Directory Import: The resolved path corresponds to a directory, which is not a supported target for module imports.
ESM_RESOLVE(specifier, parentURL)
- Let resolved be undefined.
- If specifier is a valid URL, then
- Set resolved to the result of parsing and reserializing specifier as a URL.
- Otherwise, if specifier starts with "/", "./" or "../", then
- Set resolved to the URL resolution of specifier relative to parentURL.
- Otherwise, if specifier starts with "#", then
- Set resolved to the destructured value of the result of PACKAGE_IMPORTS_RESOLVE(specifier, parentURL, defaultConditions).
- Otherwise,
- Note: specifier is now a bare specifier.
- Set resolved the result of PACKAGE_RESOLVE(specifier, parentURL).
- If resolved contains any percent encodings of "/" or "\" ("%2f" and "%5C" respectively), then
- Throw an Invalid Module Specifier error.
- If the file at resolved is a directory, then
- Throw an Unsupported Directory Import error.
- If the file at resolved does not exist, then
- Throw a Module Not Found error.
- Set resolved to the real path of resolved.
- Let format be the result of ESM_FORMAT(resolved).
- Load resolved as module format, format.
- Return resolved.
PACKAGE_RESOLVE(packageSpecifier, parentURL)
- Let packageName be undefined.
- If packageSpecifier is an empty string, then
- Throw an Invalid Module Specifier error.
- If packageSpecifier does not start with "@", then
- Set packageName to the substring of packageSpecifier until the first "/" separator or the end of the string.
- Otherwise,
- If packageSpecifier does not contain a "/" separator, then
- Throw an Invalid Module Specifier error.
- Set packageName to the substring of packageSpecifier until the second "/" separator or the end of the string.
- If packageName starts with "." or contains "\" or "%", then
- Throw an Invalid Module Specifier error.
- Let packageSubpath be "." concatenated with the substring of packageSpecifier from the position at the length of packageName.
- Let selfUrl be the result of PACKAGE_SELF_RESOLVE(packageName, packageSubpath, parentURL).
- If selfUrl is not undefined, return selfUrl.
- If packageSubpath is "." and packageName is a Node.js builtin module, then
- Return the string "node:" concatenated with packageSpecifier.
- While parentURL is not the file system root,
- Let packageURL be the URL resolution of "node_modules/" concatenated with packageSpecifier, relative to parentURL.
- Set parentURL to the parent folder URL of parentURL.
- If the folder at packageURL does not exist, then
- Set parentURL to the parent URL path of parentURL.
- Continue the next loop iteration.
- Let pjson be the result of READ_PACKAGE_JSON(packageURL).
- If pjson is not null and pjson.exports is not null or undefined, then
- Let exports be pjson.exports.
- Return the resolved destructured value of the result of PACKAGE_EXPORTS_RESOLVE(packageURL, packageSubpath, pjson.exports, defaultConditions).
- Otherwise, if packageSubpath is equal to ".", then
- Return the result applying the legacy LOAD_AS_DIRECTORY CommonJS resolver to packageURL, throwing a Module Not Found error for no resolution.
- Otherwise,
- Return the URL resolution of packageSubpath in packageURL.
- Throw a Module Not Found error.
PACKAGE_SELF_RESOLVE(packageName, packageSubpath, parentURL)
- Let packageURL be the result of READ_PACKAGE_SCOPE(parentURL).
- If packageURL is null, then
- Return undefined.
- Let pjson be the result of READ_PACKAGE_JSON(packageURL).
- If pjson is null or if pjson.exports is null or undefined, then
- Return undefined.
- If pjson.name is equal to packageName, then
- Return the resolved destructured value of the result of PACKAGE_EXPORTS_RESOLVE(packageURL, packageSubpath, pjson.exports, defaultConditions).
- Otherwise, return undefined.
PACKAGE_EXPORTS_RESOLVE(packageURL, subpath, exports, conditions)
- If exports is an Object with both a key starting with "." and a key not starting with ".", throw an Invalid Package Configuration error.
- If subpath is equal to ".", then
- Let mainExport be undefined.
- If exports is a String or Array, or an Object containing no keys starting with ".", then
- Set mainExport to exports.
- Otherwise if exports is an Object containing a "." property, then
- Set mainExport to exports["."].
- If mainExport is not undefined, then
- Let resolved be the result of PACKAGE_TARGET_RESOLVE( packageURL, mainExport, "", false, false, conditions).
- If resolved is not null or undefined, then
- Return resolved.
- Otherwise, if exports is an Object and all keys of exports start with ".", then
- Let matchKey be the string "./" concatenated with subpath.
- Let resolvedMatch be result of PACKAGE_IMPORTS_EXPORTS_RESOLVE( matchKey, exports, packageURL, false, conditions).
- If resolvedMatch.resolve is not null or undefined, then
- Return resolvedMatch.
- Throw a Package Path Not Exported error.
PACKAGE_IMPORTS_RESOLVE(specifier, parentURL, conditions)
- Assert: specifier begins with "#".
- If specifier is exactly equal to "#" or starts with "#/", then
- Throw an Invalid Module Specifier error.
- Let packageURL be the result of READ_PACKAGE_SCOPE(parentURL).
- If packageURL is not null, then
- Let pjson be the result of READ_PACKAGE_JSON(packageURL).
- If pjson.imports is a non-null Object, then
- Let resolvedMatch be the result of PACKAGE_IMPORTS_EXPORTS_RESOLVE(specifier, pjson.imports, packageURL, true, conditions).
- If resolvedMatch.resolve is not null or undefined, then
- Return resolvedMatch.
- Throw a Package Import Not Defined error.
PACKAGE_IMPORTS_EXPORTS_RESOLVE(matchKey, matchObj, packageURL, isImports, conditions)
- If matchKey is a key of matchObj and does not end in "/" or contain "*", then
- Let target be the value of matchObj[matchKey].
- Let resolved be the result of PACKAGE_TARGET_RESOLVE( packageURL, target, "", false, isImports, conditions).
- Return the object { resolved, exact: true }.
- Let expansionKeys be the list of keys of matchObj either ending in "/" or containing only a single "*", sorted by the sorting function PATTERN_KEY_COMPARE which orders in descending order of specificity.
- For each key expansionKey in expansionKeys, do
- Let patternBase be null.
- If expansionKey contains "*", set patternBase to the substring of expansionKey up to but excluding the first "*" character.
- If patternBase is not null and matchKey starts with but is not equal to patternBase, then
- If matchKey ends with "/", throw an Invalid Module Specifier error.
- Let patternTrailer be the substring of expansionKey from the index after the first "*" character.
- If patternTrailer has zero length, or if matchKey ends with patternTrailer and the length of matchKey is greater than or equal to the length of expansionKey, then
- Let target be the value of matchObj[expansionKey].
- Let subpath be the substring of matchKey starting at the index of the length of patternBase up to the length of matchKey minus the length of patternTrailer.
- Let resolved be the result of PACKAGE_TARGET_RESOLVE( packageURL, target, subpath, true, isImports, conditions).
- Return the object { resolved, exact: true }.
- Otherwise if patternBase is null and matchKey starts with expansionKey, then
- Let target be the value of matchObj[expansionKey].
- Let subpath be the substring of matchKey starting at the index of the length of expansionKey.
- Let resolved be the result of PACKAGE_TARGET_RESOLVE( packageURL, target, subpath, false, isImports, conditions).
- Return the object { resolved, exact: false }.
- Return the object { resolved: null, exact: true }.
PATTERN_KEY_COMPARE(keyA, keyB)
- Assert: keyA ends with "/" or contains only a single "*".
- Assert: keyB ends with "/" or contains only a single "*".
- Let baseLengthA be the index of "*" in keyA plus one, if keyA contains "*", or the length of keyA otherwise.
- Let baseLengthB be the index of "*" in keyB plus one, if keyB contains "*", or the length of keyB otherwise.
- If baseLengthA is greater than baseLengthB, return -1.
- If baseLengthB is greater than baseLengthA, return 1.
- If keyA does not contain "*", return 1.
- If keyB does not contain "*", return -1.
- If the length of keyA is greater than the length of keyB, return -1.
- If the length of keyB is greater than the length of keyA, return 1.
- Return 0.
PACKAGE_TARGET_RESOLVE(packageURL, target, subpath, pattern, internal, conditions)
- If target is a String, then
- If pattern is false, subpath has non-zero length and target does not end with "/", throw an Invalid Module Specifier error.
- If target does not start with "./", then
- If internal is true and target does not start with "../" or "/" and is not a valid URL, then
- If pattern is true, then
- Return PACKAGE_RESOLVE(target with every instance of "*" replaced by subpath, packageURL + "/")_.
- Return PACKAGE_RESOLVE(target + subpath, packageURL + "/")_.
- Otherwise, throw an Invalid Package Target error.
- If target split on "/" or "\" contains any ".", ".." or "node_modules" segments after the first segment, throw an Invalid Package Target error.
- Let resolvedTarget be the URL resolution of the concatenation of packageURL and target.
- Assert: resolvedTarget is contained in packageURL.
- If subpath split on "/" or "\" contains any ".", ".." or "node_modules" segments, throw an Invalid Module Specifier error.
- If pattern is true, then
- Return the URL resolution of resolvedTarget with every instance of "*" replaced with subpath.
- Otherwise,
- Return the URL resolution of the concatenation of subpath and resolvedTarget.
- Otherwise, if target is a non-null Object, then
- If exports contains any index property keys, as defined in ECMA-262 6.1.7 Array Index, throw an Invalid Package Configuration error.
- For each property p of target, in object insertion order as,
- If p equals "default" or conditions contains an entry for p, then
- Let targetValue be the value of the p property in target.
- Let resolved be the result of PACKAGE_TARGET_RESOLVE( packageURL, targetValue, subpath, pattern, internal, conditions).
- If resolved is equal to undefined, continue the loop.
- Return resolved.
- Return undefined.
- Otherwise, if target is an Array, then
- If _target.length is zero, return null.
- For each item targetValue in target, do
- Let resolved be the result of PACKAGE_TARGET_RESOLVE( packageURL, targetValue, subpath, pattern, internal, conditions), continuing the loop on any Invalid Package Target error.
- If resolved is undefined, continue the loop.
- Return resolved.
- Return or throw the last fallback resolution null return or error.
- Otherwise, if target is null, return null.
- Otherwise throw an Invalid Package Target error.
ESM_FORMAT(url)
- Assert: url corresponds to an existing file.
- Let pjson be the result of READ_PACKAGE_SCOPE(url).
- If url ends in ".mjs", then
- Return "module".
- If url ends in ".cjs", then
- Return "commonjs".
- If pjson?.type exists and is "module", then
- If url ends in ".js", then
- Return "module".
- Throw an Unsupported File Extension error.
- Otherwise,
- Throw an Unsupported File Extension error.
READ_PACKAGE_SCOPE(url)
- Let scopeURL be url.
- While scopeURL is not the file system root,
- Set scopeURL to the parent URL of scopeURL.
- If scopeURL ends in a "node_modules" path segment, return null.
- Let pjson be the result of READ_PACKAGE_JSON(scopeURL).
- If pjson is not null, then
- Return pjson.
- Return null.
READ_PACKAGE_JSON(packageURL)
- Let pjsonURL be the resolution of "package.json" within packageURL.
- If the file at pjsonURL does not exist, then
- Return null.
- If the file at packageURL does not parse as valid JSON, then
- Throw an Invalid Package Configuration error.
- Return the parsed JSON source of the file at pjsonURL.
Stability: 1 - Experimental
The current specifier resolution does not support all default behavior of the CommonJS loader. One of the behavior differences is automatic resolution of file extensions and the ability to import directories that have an index file.
The --experimental-specifier-resolution=[mode]
flag can be used to customize
the extension resolution algorithm. The default mode is explicit
, which
requires the full path to a module be provided to the loader. To enable the
automatic extension resolution and importing from directories that include an
index file use the node
mode.
$ node index.mjs
success!
$ node index # Failure!
Error: Cannot find module
$ node --experimental-specifier-resolution=node index
success!