I have a library which was used as follows

import { Foo } from '@me/core';
const foo = new Foo();

The package.json of that library looks like

"name": "@me/core",
"version": "1.0.0",
"main": "dist/index.js",
"types": "dist/index.d.ts",
"license": "MIT",

With dist/index.js its entrypoint. Now, however, I would provide an import for NodeJs projects only and one for web projects. Ideally I would have something like this for NodeJs

import { Foo } from '@me/core/nodejs';

and if you're working on a web-project you could do

import { Foo } from '@me/core/web';

My understanding is that both @me/core/nodejs and @me/core/web will be different NPM packages this way, which is not what I want. I want it to be in 1 npm package.

I tried to changed the library's index.ts file, from

export * from './foo';


import * as nodejs from './nodejs';
import * as web from './web';

export { web, nodejs };

This actually works, but I have to use it now (in a NODEJS project) as follows

import { nodejs } from '@me/core';

const foo = new nodejs.Foo();

Is there maybe a way to import this such that I don't need the nodejs everytime?

As you can see I'm not so sure what I should do here so any help would be appreciated!

UPDATE: Based on the suggestions by @Klaycon I see the following error:

enter image description here

3 Answers 3


As you're using ECMAScript modules, please refer to node.js docs on 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.

So, in your package.json, you could define exports like this:

  "main": "dist/index.js",
  "exports": {
    ".": "./dist/index.js",
    "./nodejs": "./dist/nodejs",
    "./web": "./dist/web",
  • 2
    This looks like the solution, except I cannot get it to work :( If the name of the package is @me/core should core then be part of the exports keys? If what you have is correct, then how should I import this? Like this import { Foo } from '@me/core/nodejs';? Right now it gives me the following error: Cannot find module '@me/core/nodejs' or its corresponding type declarations. Should I also define the type files somewhere maybe? Somehow it seems that the exports is completely ignored Jul 23, 2020 at 17:42
  • @JeanlucaScaljeri Whoops, I didn't quite realize that @me was the scope and the package name is core (correct me if that's incorrect). In that case omit core from the exports. I'll edit the answer to reflect.
    – Klaycon
    Jul 23, 2020 at 17:48
  • 1
    maybe this is an issue: github.com/microsoft/TypeScript/issues/33079 Jul 23, 2020 at 18:17
  • 1
    I'm using typescript to compile my code, I'm getting the feeling it has to do with that Jul 23, 2020 at 18:28
  • 1
    I however have a negative side-effect from this: in the context of a Lerna monorepo, it behaves as if I was doing local import inadvertently. It doesn't treat "my-other-package/server" as an entry point during build, but instead as a local file of "my-other-package", thus bundling "my-package" into "my-other-package"...
    – Eric Burel
    Oct 8, 2021 at 13:32

The accepted answer, using the exports field, is one way to do it, but not the only way -- and as you've found, isn't currently supported by Typescript.

Look at the @angular/material package, which works similarly to what you have in mind. In @angular/material/package.json, you've got a module field that points to an empty JS file, and a typings field that points to an empty .d.ts file. But you've also got @angular/material/button/package.json which points (indirectly) to the implementation of MatButton (and a bunch of other stuff). When you import {MatButton} from "@angular/material/button", it resolves this package file, looks at its module and typings fields, and uses those to resolve the runtime code and exported types, respectively.

You could do the same thing: @me/core/package.json would have module and typings fields that point to empty files; @me/core/node/package.json would point to code for your Node-specific Foo class, and @me/core/web/package.json would point to code for your browser version of Foo.

  • Hi, you mean you should setup Webpack for instance to copy those package.json to the right place, eg using the copy plugin?
    – Eric Burel
    Oct 1, 2021 at 9:45
  • If that's your build process, sure. I think in Angular's case, they actually build each subdirectory as its own project, then have a (presumably Bazel?) build step that copies each component's build artifacts into a tree structure. The complexity of your build process would be up to you.
    – Coderer
    Oct 1, 2021 at 10:55

Try to add the following code to the tsconfig.json:

  "compilerOptions": {
    "moduleResolution": "NodeNext"

And then you can import the module like this:

import { Foo } from '@me/core/nodejs';

If you Don't Want to Touch the tsconfig.json you can use the following for the import:

import { Foo } from '@me/core/dist/nodejs';


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