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- Modules: CommonJS modules
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- Modules:
module
API - Modules: Packages
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- V8
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Node.js v12.22.0 Documentation
Table of Contents
Modules: Packages#
Introduction#
A package is a folder tree described by a package.json
file. The package
consists of the folder containing the package.json
file and all subfolders
until the next folder containing another package.json
file, or a folder
named node_modules
.
This page provides guidance for package authors writing package.json
files
along with a reference for the package.json
fields defined by Node.js.
Determining module system#
Node.js will treat the following as ES modules when passed to node
as the
initial input, or when referenced by import
statements within ES module code:
-
Files ending in
.mjs
. -
Files ending in
.js
when the nearest parentpackage.json
file contains a top-level"type"
field with a value of"module"
. -
Strings passed in as an argument to
--eval
, or piped tonode
viaSTDIN
, with the flag--input-type=module
.
Node.js will treat as CommonJS all other forms of input, such as .js
files
where the nearest parent package.json
file contains no top-level "type"
field, or string input without the flag --input-type
. This behavior is to
preserve backward compatibility. However, now that Node.js supports both
CommonJS and ES modules, it is best to be explicit whenever possible. Node.js
will treat the following as CommonJS when passed to node
as the initial input,
or when referenced by import
statements within ES module code:
-
Files ending in
.cjs
. -
Files ending in
.js
when the nearest parentpackage.json
file contains a top-level field"type"
with a value of"commonjs"
. -
Strings passed in as an argument to
--eval
or--print
, or piped tonode
viaSTDIN
, with the flag--input-type=commonjs
.
Package authors should include the "type"
field, even in packages where
all sources are CommonJS. Being explicit about the type
of the package will
future-proof the package in case the default type of Node.js ever changes, and
it will also make things easier for build tools and loaders to determine how the
files in the package should be interpreted.
package.json
and file extensions#
Within a package, the package.json
"type"
field defines how
Node.js should interpret .js
files. If a package.json
file does not have a
"type"
field, .js
files are treated as CommonJS.
A package.json
"type"
value of "module"
tells Node.js to interpret .js
files within that package as using ES module syntax.
The "type"
field applies not only to initial entry points (node my-app.js
)
but also to files referenced by import
statements and import()
expressions.
// my-app.js, treated as an ES module because there is a package.json
// file in the same folder with "type": "module".
import './startup/init.js';
// Loaded as ES module since ./startup contains no package.json file,
// and therefore inherits the "type" value from one level up.
import 'commonjs-package';
// Loaded as CommonJS since ./node_modules/commonjs-package/package.json
// lacks a "type" field or contains "type": "commonjs".
import './node_modules/commonjs-package/index.js';
// Loaded as CommonJS since ./node_modules/commonjs-package/package.json
// lacks a "type" field or contains "type": "commonjs".
Files ending with .mjs
are always loaded as ES modules regardless of
the nearest parent package.json
.
Files ending with .cjs
are always loaded as CommonJS regardless of the
nearest parent package.json
.
import './legacy-file.cjs';
// Loaded as CommonJS since .cjs is always loaded as CommonJS.
import 'commonjs-package/src/index.mjs';
// Loaded as ES module since .mjs is always loaded as ES module.
The .mjs
and .cjs
extensions can be used to mix types within the same
package:
-
Within a
"type": "module"
package, Node.js can be instructed to interpret a particular file as CommonJS by naming it with a.cjs
extension (since both.js
and.mjs
files are treated as ES modules within a"module"
package). -
Within a
"type": "commonjs"
package, Node.js can be instructed to interpret a particular file as an ES module by naming it with an.mjs
extension (since both.js
and.cjs
files are treated as CommonJS within a"commonjs"
package).
--input-type
flag#
Strings passed in as an argument to --eval
(or -e
), or piped to node
via
STDIN
, are treated as ES modules when the --input-type=module
flag
is set.
node --input-type=module --eval "import { sep } from 'path'; console.log(sep);"
echo "import { sep } from 'path'; console.log(sep);" | node --input-type=module
For completeness there is also --input-type=commonjs
, for explicitly running
string input as CommonJS. This is the default behavior if --input-type
is
unspecified.
Package entry points#
In a package’s package.json
file, two fields can define entry points for a
package: "main"
and "exports"
. The "main"
field is supported
in all versions of Node.js, but its capabilities are limited: it only defines
the main entry point of the package.
The "exports"
field provides an alternative to "main"
where the
package main entry point can be defined while also encapsulating the package,
preventing any other entry points besides those defined in "exports"
.
This encapsulation allows module authors to define a public interface for
their package.
If both "exports"
and "main"
are defined, the "exports"
field
takes precedence over "main"
. "exports"
are not specific to ES
modules or CommonJS; "main"
is overridden by "exports"
if it
exists. As such "main"
cannot be used as a fallback for CommonJS but it
can be used as a fallback for legacy versions of Node.js that do not support the
"exports"
field.
Conditional exports can be used within "exports"
to define different
package entry points per environment, including whether the package is
referenced via require
or via import
. For more information about supporting
both CommonJS and ES Modules in a single package please consult
the dual CommonJS/ES module packages section.
Warning: Introducing the "exports"
field prevents consumers of a
package from using any entry points that are not defined, including the
package.json
(e.g. require('your-package/package.json')
. This will
likely be a breaking change.
To make the introduction of "exports"
non-breaking, ensure that every
previously supported entry point is exported. It is best to explicitly specify
entry points so that the package’s public API is well-defined. For example,
a project that previous exported main
, lib
,
feature
, and the package.json
could use the following package.exports
:
{
"name": "my-mod",
"exports": {
".": "./lib/index.js",
"./lib": "./lib/index.js",
"./lib/index": "./lib/index.js",
"./lib/index.js": "./lib/index.js",
"./feature": "./feature/index.js",
"./feature/index.js": "./feature/index.js",
"./package.json": "./package.json"
}
}
Alternatively a project could choose to export entire folders:
{
"name": "my-mod",
"exports": {
".": "./lib/index.js",
"./lib": "./lib/index.js",
"./lib/*": "./lib/*.js",
"./feature": "./feature/index.js",
"./feature/*": "./feature/*.js",
"./package.json": "./package.json"
}
}
As a last resort, package encapsulation can be disabled entirely by creating an
export for the root of the package "./*": "./*"
. This exposes every file
in the package at the cost of disabling the encapsulation and potential tooling
benefits this provides. As the ES Module loader in Node.js enforces the use of
the full specifier path, exporting the root rather than being explicit
about entry is less expressive than either of the prior examples. Not only
is encapsulation lost but module consumers are unable to
import feature from 'my-mod/feature'
as they need to provide the full
path import feature from 'my-mod/feature/index.js
.
Main entry point export#
To set the main entry point for a package, it is advisable to define both
"exports"
and "main"
in the package’s package.json
file:
{
"main": "./main.js",
"exports": "./main.js"
}
When the "exports"
field is defined, all subpaths of the package are
encapsulated and no longer available to importers. For example,
require('pkg/subpath.js')
throws an ERR_PACKAGE_PATH_NOT_EXPORTED
error.
This encapsulation of exports provides more reliable guarantees
about package interfaces for tools and when handling semver upgrades for a
package. It is not a strong encapsulation since a direct require of any
absolute subpath of the package such as
require('/path/to/node_modules/pkg/subpath.js')
will still load subpath.js
.
Subpath exports#
When using the "exports"
field, custom subpaths can be defined along
with the main entry point by treating the main entry point as the
"."
subpath:
{
"main": "./main.js",
"exports": {
".": "./main.js",
"./submodule": "./src/submodule.js"
}
}
Now only the defined subpath in "exports"
can be imported by a consumer:
import submodule from 'es-module-package/submodule';
// Loads ./node_modules/es-module-package/src/submodule.js
While other subpaths will error:
import submodule from 'es-module-package/private-module.js';
// Throws ERR_PACKAGE_PATH_NOT_EXPORTED
Subpath imports#
In addition to the "exports"
field, it is possible to define internal
package import maps that only apply to import specifiers from within the package
itself.
Entries in the imports field must always start with #
to ensure they are
disambiguated from package specifiers.
For example, the imports field can be used to gain the benefits of conditional exports for internal modules:
// package.json
{
"imports": {
"#dep": {
"node": "dep-node-native",
"default": "./dep-polyfill.js"
}
},
"dependencies": {
"dep-node-native": "^1.0.0"
}
}
where import '#dep'
does not get the resolution of the external package
dep-node-native
(including its exports in turn), and instead gets the local
file ./dep-polyfill.js
relative to the package in other environments.
Unlike the "exports"
field, the "imports"
field permits mapping to external
packages.
The resolution rules for the imports field are otherwise analogous to the exports field.
Subpath patterns#
For packages with a small number of exports or imports, we recommend
explicitly listing each exports subpath entry. But for packages that have
large numbers of subpaths, this might cause package.json
bloat and
maintenance issues.
For these use cases, subpath export patterns can be used instead:
// ./node_modules/es-module-package/package.json
{
"exports": {
"./features/*": "./src/features/*.js"
},
"imports": {
"#internal/*": "./src/internal/*.js"
}
}
The left hand matching pattern must always end in *
. All instances of *
on
the right hand side will then be replaced with this value, including if it
contains any /
separators.
import featureX from 'es-module-package/features/x';
// Loads ./node_modules/es-module-package/src/features/x.js
import featureY from 'es-module-package/features/y/y';
// Loads ./node_modules/es-module-package/src/features/y/y.js
import internalZ from '#internal/z';
// Loads ./node_modules/es-module-package/src/internal/z.js
This is a direct static replacement without any special handling for file
extensions. In the previous example, pkg/features/x.json
would be resolved to
./src/features/x.json.js
in the mapping.
The property of exports being statically enumerable is maintained with exports
patterns since the individual exports for a package can be determined by
treating the right hand side target pattern as a **
glob against the list of
files within the package. Because node_modules
paths are forbidden in exports
targets, this expansion is dependent on only the files of the package itself.
Exports sugar#
If the "."
export is the only export, the "exports"
field provides sugar
for this case being the direct "exports"
field value.
If the "."
export has a fallback array or string value, then the
"exports"
field can be set to this value directly.
{
"exports": {
".": "./main.js"
}
}
can be written:
{
"exports": "./main.js"
}
Conditional exports#
Conditional exports provide a way to map to different paths depending on certain conditions. They are supported for both CommonJS and ES module imports.
For example, a package that wants to provide different ES module exports for
require()
and import
can be written:
// package.json
{
"main": "./main-require.cjs",
"exports": {
"import": "./main-module.js",
"require": "./main-require.cjs"
},
"type": "module"
}
Node.js supports the following conditions out of the box:
"import"
- matches when the package is loaded viaimport
orimport()
, or via any top-level import or resolve operation by the ECMAScript module loader. Applies regardless of the module format of the target file. Always mutually exclusive with"require"
."require"
- matches when the package is loaded viarequire()
. The referenced file should be loadable withrequire()
although the condition matches regardless of the module format of the target file. Expected formats include CommonJS, JSON, and native addons but not ES modules asrequire()
doesn't support them. Always mutually exclusive with"import"
."node"
- matches for any Node.js environment. Can be a CommonJS or ES module file. This condition should always come after"import"
or"require"
."default"
- the generic fallback that always matches. Can be a CommonJS or ES module file. This condition should always come last.
Within the "exports"
object, key order is significant. During condition
matching, earlier entries have higher priority and take precedence over later
entries. The general rule is that conditions should be from most specific to
least specific in object order.
Other conditions such as "browser"
, "electron"
, "deno"
, "react-native"
,
etc., are unknown to Node.js, and thus ignored. Runtimes or tools other than
Node.js can use them at their discretion. Further restrictions, definitions, or
guidance on condition names might occur in the future.
Using the "import"
and "require"
conditions can lead to some hazards,
which are further explained in the dual CommonJS/ES module packages section.
Conditional exports can also be extended to exports subpaths, for example:
{
"main": "./main.js",
"exports": {
".": "./main.js",
"./feature": {
"node": "./feature-node.js",
"default": "./feature.js"
}
}
}
Defines a package where require('pkg/feature')
and import 'pkg/feature'
could provide different implementations between Node.js and other JS
environments.
When using environment branches, always include a "default"
condition where
possible. Providing a "default"
condition ensures that any unknown JS
environments are able to use this universal implementation, which helps avoid
these JS environments from having to pretend to be existing environments in
order to support packages with conditional exports. For this reason, using
"node"
and "default"
condition branches is usually preferable to using
"node"
and "browser"
condition branches.
Nested conditions#
In addition to direct mappings, Node.js also supports nested condition objects.
For example, to define a package that only has dual mode entry points for use in Node.js but not the browser:
{
"main": "./main.js",
"exports": {
"node": {
"import": "./feature-node.mjs",
"require": "./feature-node.cjs"
},
"default": "./feature.mjs",
}
}
Conditions continue to be matched in order as with flat conditions. If
a nested conditional does not have any mapping it will continue checking
the remaining conditions of the parent condition. In this way nested
conditions behave analogously to nested JavaScript if
statements.
Resolving user conditions#
When running Node.js, custom user conditions can be added with the
--conditions
flag:
node --conditions=development main.js
which would then resolve the "development"
condition in package imports and
exports, while resolving the existing "node"
, "default"
, "import"
, and
"require"
conditions as appropriate.
Any number of custom conditions can be set with repeat flags.
Self-referencing a package using its name#
Within a package, the values defined in the package’s
package.json
"exports"
field can be referenced via the package’s name.
For example, assuming the package.json
is:
// package.json
{
"name": "a-package",
"exports": {
".": "./main.mjs",
"./foo": "./foo.js"
}
}
Then any module in that package can reference an export in the package itself:
// ./a-module.mjs
import { something } from 'a-package'; // Imports "something" from ./main.mjs.
Self-referencing is available only if package.json
has "exports"
, and
will allow importing only what that "exports"
(in the package.json
)
allows. So the code below, given the previous package, will generate a runtime
error:
// ./another-module.mjs
// Imports "another" from ./m.mjs. Fails because
// the "package.json" "exports" field
// does not provide an export named "./m.mjs".
import { another } from 'a-package/m.mjs';
Self-referencing is also available when using require
, both in an ES module,
and in a CommonJS one. For example, this code will also work:
// ./a-module.js
const { something } = require('a-package/foo'); // Loads from ./foo.js.
Dual CommonJS/ES module packages#
Prior to the introduction of support for ES modules in Node.js, it was a common
pattern for package authors to include both CommonJS and ES module JavaScript
sources in their package, with package.json
"main"
specifying the
CommonJS entry point and package.json
"module"
specifying the ES module
entry point.
This enabled Node.js to run the CommonJS entry point while build tools such as
bundlers used the ES module entry point, since Node.js ignored (and still
ignores) the top-level "module"
field.
Node.js can now run ES module entry points, and a package can contain both
CommonJS and ES module entry points (either via separate specifiers such as
'pkg'
and 'pkg/es-module'
, or both at the same specifier via Conditional
exports). Unlike in the scenario where "module"
is only used by bundlers,
or ES module files are transpiled into CommonJS on the fly before evaluation by
Node.js, the files referenced by the ES module entry point are evaluated as ES
modules.
Dual package hazard#
When an application is using a package that provides both CommonJS and ES module
sources, there is a risk of certain bugs if both versions of the package get
loaded. This potential comes from the fact that the pkgInstance
created by
const pkgInstance = require('pkg')
is not the same as the pkgInstance
created by import pkgInstance from 'pkg'
(or an alternative main path like
'pkg/module'
). This is the “dual package hazard,” where two versions of the
same package can be loaded within the same runtime environment. While it is
unlikely that an application or package would intentionally load both versions
directly, it is common for an application to load one version while a dependency
of the application loads the other version. This hazard can happen because
Node.js supports intermixing CommonJS and ES modules, and can lead to unexpected
behavior.
If the package main export is a constructor, an instanceof
comparison of
instances created by the two versions returns false
, and if the export is an
object, properties added to one (like pkgInstance.foo = 3
) are not present on
the other. This differs from how import
and require
statements work in
all-CommonJS or all-ES module environments, respectively, and therefore is
surprising to users. It also differs from the behavior users are familiar with
when using transpilation via tools like Babel or esm
.
Writing dual packages while avoiding or minimizing hazards#
First, the hazard described in the previous section occurs when a package
contains both CommonJS and ES module sources and both sources are provided for
use in Node.js, either via separate main entry points or exported paths. A
package might instead be written where any version of Node.js receives only
CommonJS sources, and any separate ES module sources the package might contain
are intended only for other environments such as browsers. Such a package
would be usable by any version of Node.js, since import
can refer to CommonJS
files; but it would not provide any of the advantages of using ES module syntax.
A package might also switch from CommonJS to ES module syntax in a breaking change version bump. This has the disadvantage that the newest version of the package would only be usable in ES module-supporting versions of Node.js.
Every pattern has tradeoffs, but there are two broad approaches that satisfy the following conditions:
- The package is usable via both
require
andimport
. - The package is usable in both current Node.js and older versions of Node.js that lack support for ES modules.
- The package main entry point, e.g.
'pkg'
can be used by bothrequire
to resolve to a CommonJS file and byimport
to resolve to an ES module file. (And likewise for exported paths, e.g.'pkg/feature'
.) - The package provides named exports, e.g.
import { name } from 'pkg'
rather thanimport pkg from 'pkg'; pkg.name
. - The package is potentially usable in other ES module environments such as browsers.
- The hazards described in the previous section are avoided or minimized.
Approach #1: Use an ES module wrapper#
Write the package in CommonJS or transpile ES module sources into CommonJS, and
create an ES module wrapper file that defines the named exports. Using
Conditional exports, the ES module wrapper is used for import
and the
CommonJS entry point for require
.
// ./node_modules/pkg/package.json
{
"type": "module",
"main": "./index.cjs",
"exports": {
"import": "./wrapper.mjs",
"require": "./index.cjs"
}
}
The preceding example uses explicit extensions .mjs
and .cjs
.
If your files use the .js
extension, "type": "module"
will cause such files
to be treated as ES modules, just as "type": "commonjs"
would cause them
to be treated as CommonJS.
See Enabling.
// ./node_modules/pkg/index.cjs
exports.name = 'value';
// ./node_modules/pkg/wrapper.mjs
import cjsModule from './index.cjs';
export const name = cjsModule.name;
In this example, the name
from import { name } from 'pkg'
is the same
singleton as the name
from const { name } = require('pkg')
. Therefore ===
returns true
when comparing the two name
s and the divergent specifier hazard
is avoided.
If the module is not simply a list of named exports, but rather contains a
unique function or object export like module.exports = function () { ... }
,
or if support in the wrapper for the import pkg from 'pkg'
pattern is desired,
then the wrapper would instead be written to export the default optionally
along with any named exports as well:
import cjsModule from './index.cjs';
export const name = cjsModule.name;
export default cjsModule;
This approach is appropriate for any of the following use cases:
- The package is currently written in CommonJS and the author would prefer not to refactor it into ES module syntax, but wishes to provide named exports for ES module consumers.
- The package has other packages that depend on it, and the end user might
install both this package and those other packages. For example a
utilities
package is used directly in an application, and autilities-plus
package adds a few more functions toutilities
. Because the wrapper exports underlying CommonJS files, it doesn’t matter ifutilities-plus
is written in CommonJS or ES module syntax; it will work either way. - The package stores internal state, and the package author would prefer not to refactor the package to isolate its state management. See the next section.
A variant of this approach not requiring conditional exports for consumers could
be to add an export, e.g. "./module"
, to point to an all-ES module-syntax
version of the package. This could be used via import 'pkg/module'
by users
who are certain that the CommonJS version will not be loaded anywhere in the
application, such as by dependencies; or if the CommonJS version can be loaded
but doesn’t affect the ES module version (for example, because the package is
stateless):
// ./node_modules/pkg/package.json
{
"type": "module",
"main": "./index.cjs",
"exports": {
".": "./index.cjs",
"./module": "./wrapper.mjs"
}
}
Approach #2: Isolate state#
A package.json
file can define the separate CommonJS and ES module entry
points directly:
// ./node_modules/pkg/package.json
{
"type": "module",
"main": "./index.cjs",
"exports": {
"import": "./index.mjs",
"require": "./index.cjs"
}
}
This can be done if both the CommonJS and ES module versions of the package are equivalent, for example because one is the transpiled output of the other; and the package’s management of state is carefully isolated (or the package is stateless).
The reason that state is an issue is because both the CommonJS and ES module
versions of the package might get used within an application; for example, the
user’s application code could import
the ES module version while a dependency
require
s the CommonJS version. If that were to occur, two copies of the
package would be loaded in memory and therefore two separate states would be
present. This would likely cause hard-to-troubleshoot bugs.
Aside from writing a stateless package (if JavaScript’s Math
were a package,
for example, it would be stateless as all of its methods are static), there are
some ways to isolate state so that it’s shared between the potentially loaded
CommonJS and ES module instances of the package:
-
If possible, contain all state within an instantiated object. JavaScript’s
Date
, for example, needs to be instantiated to contain state; if it were a package, it would be used like this:import Date from 'date'; const someDate = new Date(); // someDate contains state; Date does not
The
new
keyword isn’t required; a package’s function can return a new object, or modify a passed-in object, to keep the state external to the package. -
Isolate the state in one or more CommonJS files that are shared between the CommonJS and ES module versions of the package. For example, if the CommonJS and ES module entry points are
index.cjs
andindex.mjs
, respectively:// ./node_modules/pkg/index.cjs const state = require('./state.cjs'); module.exports.state = state;
// ./node_modules/pkg/index.mjs import state from './state.cjs'; export { state };
Even if
pkg
is used via bothrequire
andimport
in an application (for example, viaimport
in application code and viarequire
by a dependency) each reference ofpkg
will contain the same state; and modifying that state from either module system will apply to both.
Any plugins that attach to the package’s singleton would need to separately attach to both the CommonJS and ES module singletons.
This approach is appropriate for any of the following use cases:
- The package is currently written in ES module syntax and the package author wants that version to be used wherever such syntax is supported.
- The package is stateless or its state can be isolated without too much difficulty.
- The package is unlikely to have other public packages that depend on it, or if it does, the package is stateless or has state that need not be shared between dependencies or with the overall application.
Even with isolated state, there is still the cost of possible extra code execution between the CommonJS and ES module versions of a package.
As with the previous approach, a variant of this approach not requiring
conditional exports for consumers could be to add an export, e.g.
"./module"
, to point to an all-ES module-syntax version of the package:
// ./node_modules/pkg/package.json
{
"type": "module",
"main": "./index.cjs",
"exports": {
".": "./index.cjs",
"./module": "./index.mjs"
}
}
Node.js package.json
field definitions#
This section describes the fields used by the Node.js runtime. Other tools (such as npm) use additional fields which are ignored by Node.js and not documented here.
The following fields in package.json
files are used in Node.js:
"name"
- Relevant when using named imports within a package. Also used by package managers as the name of the package."type"
- The package type determining whether to load.js
files as CommonJS or ES modules."exports"
- Package exports and conditional exports. When present, limits which submodules can be loaded from within the package."main"
- The default module when loading the package, if exports is not specified, and in versions of Node.js prior to the introduction of exports."imports"
- Package imports, for use by modules within the package itself.
"name"
#
- Type: <string>
{
"name": "package-name"
}
The "name"
field defines your package’s name. Publishing to the
npm registry requires a name that satisfies
certain requirements.
The "name"
field can be used in addition to the "exports"
field to
self-reference a package using its name.
"type"
#
- Type: <string>
The "type"
field defines the module format that Node.js uses for all
.js
files that have that package.json
file as their nearest parent.
Files ending with .js
are loaded as ES modules when the nearest parent
package.json
file contains a top-level field "type"
with a value of
"module"
.
The nearest parent package.json
is defined as the first package.json
found
when searching in the current folder, that folder’s parent, and so on up
until a node_modules folder or the volume root is reached.
// package.json
{
"type": "module"
}
# In same folder as preceding package.json
node my-app.js # Runs as ES module
If the nearest parent package.json
lacks a "type"
field, or contains
"type": "commonjs"
, .js
files are treated as CommonJS. If the volume
root is reached and no package.json
is found, .js
files are treated as
CommonJS.
import
statements of .js
files are treated as ES modules if the nearest
parent package.json
contains "type": "module"
.
// my-app.js, part of the same example as above
import './startup.js'; // Loaded as ES module because of package.json
Regardless of the value of the "type"
field, .mjs
files are always treated
as ES modules and .cjs
files are always treated as CommonJS.
"exports"
#
- Type: <Object> | <string> | <string[]>
{
"exports": "./index.js"
}
The "exports"
field allows defining the entry points of a package when
imported by name loaded either via a node_modules
lookup or a
self-reference to its own name. It is supported in Node.js 12+ as an
alternative to the "main"
that can support defining subpath exports
and conditional exports while encapsulating internal unexported modules.
Conditional Exports can also be used within "exports"
to define different
package entry points per environment, including whether the package is
referenced via require
or via import
.
All paths defined in the "exports"
must be relative file URLs starting with
./
.
"main"
#
- Type: <string>
{
"main": "./main.js"
}
The "main"
field defines the script that is used when the package directory
is loaded via require()
. Its value
is interpreted as a path.
require('./path/to/directory'); // This resolves to ./path/to/directory/main.js.
When a package has an "exports"
field, this will take precedence over the
"main"
field when importing the package by name.
"imports"
#
- Type: <Object>
// package.json
{
"imports": {
"#dep": {
"node": "dep-node-native",
"default": "./dep-polyfill.js"
}
},
"dependencies": {
"dep-node-native": "^1.0.0"
}
}
Entries in the imports field must be strings starting with #
.
Import maps permit mapping to external packages.
This field defines subpath imports for the current package.